英文选型计算书

产品选型手册英文Product Selection HandbookIntroduction:The Product Selection Handbook is designed to assist businesses in choosing the right products for their specific needs. This comprehensive guide provides essential information on product features, specifications, and factors to consider when making a decision. By following this handbook, businesses can streamline the product selection process and make informed choices that align with their goals and objectives.Table of Contents:1. Understanding the Purpose: Clearly define the purpose and intended use of the product to determine the specific requirements it must meet.2. Identifying Key Features: Identify the essential features that the product must have in order to fulfill its purpose effectively.3. Establishing Budget: Determine the budget available for purchasing the product and establish the price range to guide the selection process.4. Researching the Market: Conduct thorough market research to identify the available options and understand the quality, reputation, and customer reviews of different products.5. Analyzing Specifications: Review and compare product specifications, such as size, weight, power consumption, and othertechnical details, to ensure they align with the requirements.6. Evaluating Quality: Examine the quality of the product by considering the materials used, manufacturing process, durability, and warranty offered.7. Assessing Compatibility: Determine if the product is compatible with existing systems, software, and infrastructure within the business to avoid any integration issues.8. Considering Service and Support: Assess the service and support options provided by the manufacturer or supplier, such as warranties, customer service, and technical assistance.9. Seeking Recommendations: Consult with industry experts, colleagues, or other businesses who have experience with similar products to gather recommendations and insights.10. Testing and Trials: Whenever possible, conduct product trials or obtain samples to physically test and evaluate the product's performance and suitability.11. Taking Feedback into Account: Consider feedback from users and customers who have used the product before, as their experiences can provide valuable insights.12. Making the Final Decision: Synthesize all the collected information, consider the pros and cons of each option, and make an informed decision based on the evaluation.Conclusion:The Product Selection Handbook provides businesses with a systematic approach to selecting the most suitable products for their needs. By following the steps outlined in this handbook, businesses can streamline the product selection process and make well-informed decisions that align with their goals and budget. Remember to regularly update the handbook to reflect changes in technology, market trends, and customer preferences to ensure an effective product selection process.。

Ⅰ.Project Introduction:General IntroduceThe Dong Chang Harbor Office Development is a new-build office development occupying prestigious 400m x 60m stretch of land along the riverfront of the pu dong district of Shanghai. The project consists of seven separate office buildings. The maximal elevation of these building is 24meter.The buildings are spaced equally along the linear site in order to assure views though to the river from the buildings to the rear of the site. Below ground level the buildings share a common base containing office and parking. Light enter into the core of this base via one storage deep light wells. Glazed vents at ground level also illuminate the below ground offices.The seven separate office buildings are referred to respectively as Building A to G, among these seven, three similar types of buildings occur:-----------Type1-building A and building G-----------Type2-buildings B, E and building-----------Type3-building C and building DBuildings type1 and 2 have an orthogonal form, which is clad in terracotta. This form collides in plan with a segment of a cylinder that is clad in curtain wall. The cylinder presents a curved facet to the river which has an outer skin position Buildings Type 1 and 2 has an orthogonal form, which is clad in terracotta with glazed openings. This form collides in plan with a segment of a cylinder, which is clad in a curtain wall. The cylinder presents a curved facet to the river, which has an outer skin, positioned 2m around in front of the inner skin. To the north and south are numerous projecting bay windows clad in curtain walling. The entrance areas have canopies and steel and glass enclosures.Building Type 3 are arch forms in plan defining a Plaza, with a glass fountain structure positioned at the center. The building is entirely glazed in curtain walls and has a double skin 800 mm deep to the plaza side and 2000mm deep to the parts orientated towards the river. A horizontal canopy protects the entrance doors.Circulation and service cores are positioned on the inland eastern facades. Their geometry is curved in plan and they are clad in glass and stainless steel panels.The outer facadesTo the exterior of the weathering facades are frequently superimposed an outer skin for about a third of the project so effectively creating a series of double skin facades. The outer skin of the double facades do not have to insure the thermal, or water performance of the building. The double skin system protects the opening vents and the motorized blinds situated in behind the outer skin, so allowing an improved environmental quality at the workplace and allowing for large areas of very transparent glazing to address the river or the Plaza.Double Facade TypologiesThe following typologies of double skin facade occur:Type 1- Two Meter deep double facade- transfers wind loads to the building. Twosub-groups are defined, based on all vertical loads are transferred to support points.Type 1,1 the vertical loads are transferred to the roof structure, Building B, E and FType 1,2 the vertical loads are transferred to the ground plane. Building A, C, D and GThere is no maintenance walkway. The inner facade is sometimes a curtain wall and sometimes a terracotta rain screen system with windows. Excess heat build-up between the two skins is extracted by means of a continuous strip of glass louvers along the top edge of the outer skin. Air enters into the void at ground level.Type 2 – Eighty centimeters deep double skin facade - transfers both vertical and horizontal loads directly to the floor slab behind. There is a relevant maintenance walkway. The inner facade is always a curtain wall. Building C and DThe space created between the outer skin and the inner facades is closed at the top by means of horizontal roof glazing.Excess heat build-up between the two skins is extracted at each level.Ⅱ.Inner façade curtain wall Introduction2.1 Inner façade curtain wall structure systemThe support structure is reinforced concrete frame except at upper levels there is a steel structure. Curtain wall glazed area with open lights is found in several different formats:1. Infill in the terracotta surface2. Full height behind outer skin3. Full height where no outer skin is presentAll use the same basic stick system that consists of rigid structural grid composed of mullions and transoms to which infill panels are held in place by external pressure plate.All mullions are to have the same external dimension if necessary locally the profile may be reinforced internally to increase their inertia with out increasing the external dimensionsWe named the curtain wall mentioned above vertical curtain wall, some glazing area have a glazed roof which is one continue of the vertical façade. We named it curtain wall roofAll the connections should be concealed connections.2.2 Inner façade curtain wall mechanics analysisThe structure transfers all the loads to the main frame supporting points. Functions of transom:Transfers in bending the weight of glazing to the mullionTransfer in bending the wind loads from the glazing to the mullion.Functions of mullion:Transfers in bending over one floor height wind loads to the support points. Transfers in tension the self-weight of the façade to the support points from which the profile is hung.Transfers in compression the self-weight of the façade to the support points from which the profile is not suspended2.3 Joint designCurtain wall is fixed to the nose of intermediate floor slabs. By using the expansion joint at each floor level, allowance is made for vertical movement on one bottom of the mullion at the floor slab.2.4 Material characteristics2.4.1 Glass:(a) Density: γglass 2560Kg/m3(b) Modulus of Elasticity: E 72000Mpa(c) Poisson coefficient: 0.20(d) Thermal expansion coefficient: 1.0e-5(e) Allowable Stress: See Table1 of the present documentTable1: Allowable Design Stress of glassGlass Type Thickness Face zone strength (F a) Side face strength (F g)5~12mm 28.0Mpa 19.5Mpa Float Glass12~19mm 24.0Mpa 17.0Mpa5~12mm 84.0Mpa 58.8Mpa Toughened Glass12~19mm 72.0Mpa 50.4Mpa2.4.2 Aluminum:(a) Density: γglass 2700Kg/m3(b) Modulus of Elasticity: E 70000Mpa(c) Poisson coefficient 0.33(d) Thermal expansion coefficient: 2.35e-5(e) Allowable Stress: See Table2 of the present documentTable2: Allowable Design Stress of aluminumDesignations of Aluminum State Thickness Tension\compress(fa)Shear(fv)Small areacompressT5 / 85.5Mpa49.6Mpa120Mpa6063T6 / 140.0Mpa81.2Mpa161.1Mpa2.4.3 Steel:(a) Density: 7850Kg/m3(b) Modulus of Elasticity: E 206000Mpa(c) Poisson coefficient 0.30(d) Thermal expansion coefficient 1.2e-5(e) Allowable Stress See Table2 of the present document(f)Yield stress 235MpaTable3: Allowable Stress of steelGrades of Steel State ThicknessOfTubularTension\ Bending&CompressionShear Small areacompressQ235 Group1 ≤15 215Mpa 125Mpa320MpaⅢ.Loads:The following loads are unfactored loads; Safety factors will be applied as described in Section 3.8 of the present document.3.1Gravity Loads:3.1.1 the gravity of glass panel is calculated by:Glass Gravity=glass density*thickness*height dimension*width dimension-----The density of glass is taken down from section 2.4.1 of the present document. 3.1.2 the gravity of Aluminum profile is calculated by:Aluminum Gravity=aluminum density*section area*profile length----The density of aluminum is taken down from section 2.4.2 of the present document.3.2Wind Loads:According to the Chinese code GB50009-2001 (Load code for the design of building structures), We calculate wind pressure using the following expression: Wk=βgz *μz*μs*WoWhereWk is the characteristic value of wind loadβgz is the steady coefficient at height Zμz is the height variation factor of wind pressureμs is the shape factor coefficient of wind loadWo is the wind reference pressure (unit: KN/m2)First of all, the building is situated in category B terrainWind steady coefficient βgz:We can calculate the coefficient correlative to height Z by carrying linear interpolation to the attached table4 extracted from GB50009-2001 (Section7.5.1\Page from 44 to 45)Table4 Wind steady coefficient βgz:The categories of terrainHeight Zabove the ground level (Unit: meter) A B(The Project)C D5 1.17 1.00 0.74 0.6210 1.38 1.00 0.74 0.6215 1.52 1.14 0.74 0.6220 1.63 1.25 0.84 0.6230 1.80 1.42 1.00 0.62 Height variation factor μz :We can calculate the coefficient correlative to height Z though carrying linear interpolation to the attached table5 extracted from GB50009-2001 (Section7.2.2\ Pagefrom 25 to 26)Table5 Height variation factor μz :The categories of terrain Height Zabove the ground level (Unit: meter) A B(The project)C D5 1.69 1.88 2.30 3.2110 1.63 1.78 2.10 2.7615 1.60 1.72 1.99 2.5420 1.58 1.69 1.92 2.3925 1.54 1.64 1.83 2.21 Wind reference pressure: WoAccording to the General Notes of Chinese code GB50009-2001 (chapter1\ Item:1.0.5); the design reference period of building structure should be 50 years.For the city of shanghai: Wo=0.55KN/m2 [GB50009-2001: page73\Table D.4]Wind shape factor coefficient: μsAccording to the section 7.3 of Chinese code GB50009-2001:[1]The internal pressure coefficient of the building should be taken as :±0.2[2] The external pressure coefficient should be taken as the follows:(a) For wind pressure:It should be determined according to table7.3.1 item30 of GB50009-2001We take it as the value +0.8 for vertical curtain wall(b) For wind suction:It should be determined according to section7.3.3 item2We take it as the follows:-1.0 for most area of the vertical curtain wall-1.8 for the edge areas of buildings[3] The pressure coefficient between the double façade should be determined according to the ECCM and NJ Cook:The following diagram summarize the maximal wind pressure coefficient distributions assumed for analysis:In the diagram:The symbol “+”sign represents a wind pressure and the symbol “-” sign asuction on the surface considered.The symbols “MQ1”、“MQ2” and so on sign the elevation drawings number. NOTE: According to another Chinese code JGJ102-96 (Technical code for Glass Curtain Wall Engineer), the characteristic value of wind pressure applied onthe glass panel should not be less than 1.0KN/m2Shanghai is 7 degree. And design seismic acceleration equals 0.10gThere are two Chinese code concerned seismic loads. When analysis, we will choose the more disadvantageous condition between the two codes!According to Chinese code JGJ102-96JGJ102-96 (Technical code for Glass Curtain Wall Engineer), we should calculate the seismic loads as the followings:3.3.1Horizontal Seismic Load I(|←):The horizontal seismic loads whose direction form an angle 90 with the glass panel should be calculated by:qE=βE*αmax*G/AWhere:qE is the surface pressure whose direction form an angle 90 with the glass panel (unit: KN/m2)βE is the dynamical factor coefficientαmax is the maximal coefficient of horizontal earthquake factorG is the weight of curtain wall components (including glass panel and aluminumframe) (unit: KN)A is the area of the glass panel (unit: m2)Dynamical factor coefficientβE:According to Chinese code JGJ102-96, we evaluate it as a value 5.0Maximal coefficient of horizontal earthquake factorαmax:According to Chinese code JGJ102-96, we evaluate it as a value 0.083.3.2Horizontal Seismic Load II(|↑):The horizontal seismic loads whose direction form an angle 0 with the glass panel should be calculated by:qE=βE*αmax*G/AWhere:qE is the surface pressure whose direction is parallel to the glass panel (unit: KN/m2)βE is the dynamical factor coefficientαmax is the maximal coefficient of horizontal earthquake factorG is the weight of curtain wall components (including glass panel and aluminumframe) (unit: KN)All the parameters take the same value to section3.3.1According to Chinese code GB50011-2001GB50011-2001 (Code for seismic design of buildings), using equivalent base shear method, the characteristic value of horizontal seismic action should be calculated by [section5.2]:Fek=α1*GeqWhere:Fek is the characteristic value of the total horizontal earthquake actionα1 is the horizontal seismic factor coefficient related with structure fundamental natural period of vibrationGeq is the total equivalent gravity of the structure (unit: KN)Horizontal seismic factor coefficientα1:This coefficient should be determined according to the attached table6 exacted from the Chinese code GB50011-2001 (Page28):Table6 the Maximum value of the Horizontal seismic factor coefficientEarthquake fortificationintensity6Degree7Degree8Degree9DegreeFrequently occurred earthquake 0.04 0.08(0.12)0.16(0.24)0.32Seldom occurred earthquake / 0.5(0.72)0.90(1.20)1.4Note: The value in the parentheses aim at the region whose design seismic acceleration equal 0.15g or 0.30gTotal equivalent gravity Geq:According to Section 5.1.3 of Chinese code GB50011-2001, the value of Geq should be equal to 1.0*gravity+0.5Snow load3.4 Thermal Loads:According to the Chinese code JGJ102-96, The thermal loads is considered as a thermal variation + or-40℃around Celsius temperature.We can avoid the risk of temperature increasing or reducing on the mullion and transom though joint design (for details see section 2.3 of the present document).3.5 Live Loads:According to section4.3 of GB50011-2001, The characteristic value of live loads on the roof should be equal to 0.5KN/m2 as a distributed pressure3.6 Snow Loads:According to chapter 6 of Gb50009-2001:The characteristic value of snow load as a distributed pressure on the horizontal projection plan of roof should be calculated by the following expression:Sk=μr*SoWhere:Sk is the characteristic value of snow load applied on the roofμr is the distribution factor of the snow loadSo is the snow reference pressure (unit: KN/m2)Distribution factor of the snow loadμr：This factor should be taken from Section6.2.1 of GB50009- 2001, it equals 1.0 Snow reference pressure so:For the city of Shanghai, The snow reference pressure equals 0.20KN/m23.7 Maintenance &clearing Loads:According to section 5.4.2 of JGJ102-96, the maintenance load on the curtain roof due to the real status of construction and maintenance, but it should not be less than 2.0KN as a point load, and the location should be considered as the most dangerous situation for the component.3.8 Loads combination:The combinations of the load cases refer to the Chinese codes GB50009-2001 and JGJ102-96. The loads combinations in the ultimate limit state are to be used with strength analysis, and those in the serviceability limit states is to be used with stiffness analysis.3.8.1 Loads combination for vertical curtain wall:According to section 3.2 ~3.3 of the present document, the wind loads are much greater than the seismic loads. Therefore the combination listed below is surely the ultimate dangerous state for the vertical curtain wall### Serviceability limit state:1.0gravity loads+1.0wind loads +0.6seismic loads+0.2 thermal loads### Ultimate limit state:1.2gravity loads+1.4 wind loads+1.3*0.6seismic loads+1.2*0.2 thermal loads3.8.2 Loads combination for curtain wall roof:Referring to the section 4.3 of the Chinese code GB50009-2001, the live loads shouldn’t be in combination with the snow loads. In addition that the live loads are greater than the snow loads, so we put the live loads into the combination instead of the snow loads.### Serviceability limit state:The maximal combination whose direction point to vertical up1.0gravity loads+1.0wind loads *note: us=-0.8The maximal combination whose direction point to vertical down1.0gravity loads+1.0live loads+0.6seismic loads +0.2thermal loads### Ultimate limit state:The maximal combination whose direction point to vertical up1.0gravity loads+1.4wind loads *note: us=-0.8The maximal combination whose direction point to vertical down1.35gravity loads+1.4live loads+1.3*0.6seismic loads +1.2*0.2thermal loads Note: According to the code GB50009-2001:We take the factor of gravity loads as1.35, when it is of benefit to the combination We take the factor of gravity loads as1.0, when it is not of benefit to the combinationⅣ.Calculation Model4.1 Model and formula of glass panel:Calculation model:The glazing was put into a frame what connect to the main structure, so we use four edges supported plate for structure calculation.Formulas:Something to be declared:We calculate some items in reference to the later edition of Chinese code JGJ102-96 (to be approved) when there are no clearly prescripts on the related questionsStrength calculation:The characteristic value of bending stress should be computed by formulas:σwk1＝6×ηw1×ψ1×W k1×a2/t12σEk1＝6×ηe1×ψ1×1.2q Ek1×a2/t12θ= W k1(q Ek1)・a4 / Et14Where:θis one parameter used to calculateη(see Table8).σwk1 is the characteristic value of bending stress under wind loads.σEk1 is the characteristic value of bending stress under seismic loads.t1 is the thickness of the glass.ψ1 is the bending factor coefficient ,find it in the attached table7 extracted from the Chinese code JGJ102-96 (Page23).ηw1，ηe1 is the rebate coefficient，find it in the attached table8 extracted from the later edition of JGJ102-96(to be approved)(page 6-2)1.2 is the scale coefficient considering the horizontal seismic loads of curtainwall frame effect on the glass panelTable7 coefficientψa/b 0.00 0.25 0.33 0.40 0.5 0.55 0.60 0.65 ψ0.1250 0.1230 0.1180 0.1115 0.10000.09340.0868 0.0804a/b 0.70 0.75 0.80 0.85 0.90 0.95 1.0ψ0.0724 0.0683 0.06280.0576 0.05280.04830.0442Note: In Table7:“b” is the greater dimension of the glass panel, linear interpolation is allowable.Table8 Rebate coefficient ηθ≤5.010.0 20.0 30.0 60.0 80.0 100.0 η 1.00 0.96 0.92 0.84 0.78 0.73 0.68 θ120.0 150.0 200.0 250.0 300.0 350.0 ≥400.0η0.65 0.61 0.57 0.54 0.52 0.51 0.50 Stiffness calculation:The bending stress on transom can be computed by formula:σ=M/WWhere:M is the maximum applied moment be determined by the following expression: M＝q×B／8Where:M is the maximum moment on the transomq is the linear distributed loads on the mullion under ultimate limit state B is the width of curtain wall layoutW is the flexural rigidity of sectionThe maximum shear stress on transom can be computed by formula:f=V×S／(I×t)Where:V is the design value of shear force on the transomS is the area moment of the transomt is the thickness of the sectionf is the of maximum shear stress on transomStiffness calculation:The maximum deflection should be computed by formula:f=5*q*L4/(384*E*I)Where:f is the maximum of the displacement on the transomq is the linear distributed loads on the mullion under serviceability limit stateL is the span of transomE is the elastic modulus of AluminumI is the inertial moment of the transom4.3 Model and formula of mullion:Calculation model:The mullions can be classified into two different types for calculation by their supporting conditions. Equivalent linear distributed load was applied on the model. We attach a figure to clarify the differenceType-A two span continue beamType-B simply supported beamσ=M/WWhere:M is the maximum applied moment be determined by the following expression: M＝q×L／8Where:M is the maximum moment on the mullionq is the linear distributed loads on the mullion under ultimate limit state L is the span of the calculated mullionW is the flexural rigidity of sectionThe bending stress on mullion type-A can be computed as same as mullion type-B except that:M＝q・(L13＋L23)／8×LWhere:L1 is the smaller span of the calculated mullionL2 is the bigger span of the calculated mullionq is the linear distributed loads on the mullion under ultimate limit state Stiffness calculation:The maximum deflection of mullion type-B is as same as those of transom Please see 4.2 of the present document for detailsThe maximum deflection of mullion type-B can be given by formula: f＝Φ·5q・L4／384EIWhere:Φ is the equivalent coefficient (the ratio of displacement of two span beam to those of simple support beam under the same condition); find it in the attached table9 extracted from the later edition of JGJ102-96 (to be approved)L1 is the length of the smaller span of beamL2 is the length of the bigger span of beamq is the linear distributed loads on the mullion under serviceability limit state Table9 Equivalent coefficient ΦRatio of length of the smaller span to the bigger span: L1/L2 Factor of displacement on the biggerspan L21/10 0.318 2/10 0.244 3/10 0.187 4/10 0.144 5/10 0.110 6/10 0.084 7/10 0.064 8/10 0.048 9/10 0.036 1 0.026Ⅴ.Strength and Deflection Limits5.1strength limits:The ultimate limit state fixed the limiting values.5.1.1 Verification of allowable stress:The bending stress shall not exceed allowable tension& compression stressThe shear stress shall not exceed allowable shear stress5.1.2 Load-carrying capacity calculation:The transom subject to combined two axis moment should be satisfy the following formula:M x／γ W x＋M y／γW y<ƒWhere: M x is the maximum applied moment in X planeM y is the maximum applied moment in Y planeW x is the flexural rigidity of section in X planeW y is the flexural rigidity of section in Y planeγ is the plastic scale factor take1.05The mullion (hung to the upper floor) subject to combined bending moment and axis tension force should be satisfy the following formula:F／A0＋M y／γW y<ƒaWhere: F is the axis forceA0 is the net area of sectionM y is the maximum applied moment in Y planeW y is the flexural rigidity of section in Y planeγ is the plastic scale factor take1.055.1.3 Stability calculation:The mullion (stand on the floor) subject to combined bending moment and axis compression force should be satisfy the following formula:F／ΨbA0＋M y／γW y<ƒaWhere: F is the axis forceA0 is the net area of sectionΨb is the stability coefficient considering as a axis compression gridM y is the maximum applied moment in Y planeW y is the flexural rigidity of section in Y planeγ is the plastic scale factor take1.055.2. Deflection limits:The serviceability limit state fixed the limiting values.5.2.1 Define of “L”:L is the following length:[1] The span of beam when the deflection is that of a simply supported beam[2] 2 times the length of the cantilevering beam[3] The maximum span between spans of continue beam5.2.2 Aluminum mullion (transom) deflectionsThe curtain wall frame using aluminum vertical and horizontal deflections:The deflections are limited to L/1805.2.3 Reinforced mullion deflectionsThe reinforced mullion vertical and horizontal deflections are limited to L/300Ⅵ.Particular calculation of glassThe calculations comply with the Chinese code JGJ102-96. Calculation concerns the contents of chapter 5 of the code. We calculate some details in reference to the later edition of JGJ102-96 (to be approved) when there are no clearly prescripts6.1 Calculation progress and result For Glass-A6.1.1General information:Location:Indicated by “Glass-A” in the attached fig4Wind shape factor:-1.2 (for details see fig1 of the present document)Elevation:19.575meterGlazing:Insulated laminated glass: 6mm+0.74pvb+6mm+12Air+8mm toughened glass The double 6mm glasses are exposed to the outsideLayout Dimension (Height ×Width):2800mm×1860mmCoefficient µ4Glass curtain wall Metal curtain wall0.550.65 0.400.500.480.38Temperature on the edge of the glass panel:Ts=0.65To+0.35Ti=0.65*-7℃+0.35*26℃=4.55℃Where:To is the indoor temperatureTi is the outdoor temperatureThe temperature in the centre of the outdoor glass:T co=44A0＋18.5A1＋0.82t0＋0.19t1=44×.43＋18.5×.076＋0.82×-7℃＋0.19×26℃＝19.53℃The temperature in the center of the indoor glass:T ci＝ 66A1＋18.5A0＋0.66t1＋0.34t0＝ 66×.076＋18.5×.43＋0.66×26℃＋0.34×-7℃＝27.75℃Where:A0 is the combined heat absorptivity of the outdoor glassA i is the combined heat absorptivity of the indoor glassSo:The difference between the edge and the center of the outdoor glass is: T co-T s＝19.53-(4.55)＝14.98()℃The difference between the edge and the center of the indoor glass is: T ci-T s＝27.75-(4.55)＝23.2()℃℃The greater one between them equals 23.2()Thus, the characteristic value of thermal stress:σt2k＝0.74E·α·µ1・μ2・μ3・μ4(T c-T s)＝0.74×0.72×105×1×10-5×1×1×1.14×.55×23.2＝7.75 N/mm2The design value of thermal stress:σt2＝1.2·σt2k＝1.2×7.75＝9.3 N/mm2 < f g＝19.5 N/mm2Conclusion:The thermal stress satisfy the request6.1.3Strength calculation:Loads calculation:The characteristic value of wind loads:W k＝βgz・μs・μz・W o＝1.687×1.2×1.248×.55＝1.39 KN／m2The characteristic value of horizontal seismic action:q Ek＝βE・αmax・γglass・t·10-3＝5×.08×25.6×20×10-3＝.205KN／m2Loads Transfer to separate glass panel:Step1: Calculate as insulated glass:The loads distributed to the single (first) glass:W k1＝1.0×W k×t13/(t13+t23+t33)=0.754KN／m2q Ek1＝βE・αmax・γglass・t1・10-3=0.082KN／m2The loads distributed to the laminated glass:W k23 = 1.1W k×(t23 + t33) / (t13 + t23 + t33)=0.700KN／m2q Ek23＝βE・αmax・γglass・(t2+t3)·10-3=0.123KN／m2Step2: Calculate as laminated glass:The loads distributed to the second glass:W k2 = W k23×t23 / (t23 + t33)=0.355KN／m2q Ek2 = q Ek23×t23 / (t23 + t33)=0.062KN／m2The loads distributed on the third glass:W k3 = W k23×t33 / (t23 + t33)=0.355KN／m2q Ek3 = q Ek23×t33 / (t23 + t33)=0.062KN／m2Verify bending strength of the single (first) glass:With reference to section 4.1 of the present document, the bending stress of glass panel can be computed by formulas:σwk1＝6×ηw1×ψ1×W k1×a2/t12σEk1＝1.2×ηe1×6×ψ1×q Ek1×a2/t12Where:σwk1 is the characteristic value of strength under wind loadsσEk1 is the characteristic value of strength under seismic loadst1 is the thickness of the glassψ1 is the bending factor coefficient ,find it in the attached table7ηw1，ηe1 is the rebate coefficient，find it in the attached table81.2 is the scale coefficient considering the horizontal seismic loads of curtainwall frame effect on the glass panelθw1 = W k1・a4 / Et14＝.700×10-3×18604／(0.72×105×84)＝30.55According to Table8:ηw1 = 0 .8656θe1 = q Ek1・a4 / Et14θe1 = q Ek1·a4 / Et14。

主要设备选型计算书1、基本参数：（游泳池）V P =180m3；TP=4h；VP=49.5m3/d；（水容积系数1.1）Td=28℃；th=48h；2、循环系统计算书：过滤循环流量：Q C = VP/TPVP——标准游泳池的池水容积（m3）；TP——循环周期（h）；QC=180/4*1.1=49.5m3/h选用循环水泵数量3台（两用一备）；流量25 m3/h；功率2.2kw；。

3、过滤系统计算书：过滤循环流量：QC=180/4*1.1=49.5m3/hA、选用过滤器数量2台；单台过滤面积1.13m2；过滤速度25m3/m2·h；单台流量28.26m3/h；过滤器尺寸φ1200；滤床深度1000mm；出水浊度0.1FTU；反冲洗强度12～15L/S·m2，工作压力0.60MPa。

4、臭氧消毒设备4.1 过滤循环流量：QC=180/4*1.1=49.5m3/h4.2 池水消毒采用臭氧消毒，臭氧投加率C=1.2mg/L：C T =QC·CCT——臭氧投加量（g/h）；C——臭氧投加率（g/m3）；C T =QC·C=49.5x1.2=59.4g/h故本工程选用投加量60g/h臭氧设备。

5、加热系统计算书：5.1 标准游泳池的池水加热包括初次升温加热和保温加热两部分。

初次升温加热时加热速度不宜过快，以防结构受热不均引起瓷砖爆裂。

初次升温加热时，所需热量主要为：A、游泳池水表面蒸发损失的热量；B、游泳池新鲜水加热所需的热量。

C、游泳池的池壁和池底传导损失的热量；5.2 保温加热时，所需热量包括以下四部分：A、游泳池水表面蒸发损失的热量；B、游泳池的池壁和池底传导损失的热量；C、管道和净化水设备传导损失的热量；D、游泳池补充新鲜水加热所需的热量。

5.3 游泳池水表面蒸发损失的热量：Q S =α·γ·(0.0174·VW+0.0229)·(Pb-Pq)·AS·(760/B)α——热量换算系数，α=4.187；γ——与池水温度相等时，水的蒸发汽化潜热（Kcal/Kg）；VW——游泳池水表面上的风速（m/s）；一般按下列规定采用：室内游泳池：VW=0.2～0.5m/s；露天游泳池：VW=2～3m/s；因是室内池，故取VW=0.5m/s；Pb——与池水温度相等时的饱和空气的水蒸汽分压力（mmHg）；Pq——游泳池的环境空气的水蒸汽分压力（mmHg）；AS——游泳池的水表面面积（m2）；B——当地的大气压力（mmHg）。

如何在yjk中出英文计算书在YJK中编写英文计算书可以按照以下步骤进行：1. 确定书籍的结构和内容，首先，确定你的计算书的主题和目标读者群体。

然后，制定书籍的大纲，确定章节和内容的组织结构。

考虑到英文计算书的读者可能具有不同的英语水平，可以在适当的地方添加解释或示例，以帮助读者更好地理解。

2. 选择合适的术语和表达方式，在编写英文计算书时，确保使用准确且常用的术语。

避免使用过于专业化或难以理解的术语，以免给读者带来困惑。

使用清晰简洁的语言表达，避免使用过于复杂或冗长的句子。

3. 提供详细的解释和示例，在解释计算概念或公式时，提供详细的解释和示例是非常重要的。

通过实际的例子和应用场景，帮助读者更好地理解和应用所学知识。

可以考虑使用图表、图像或表格来辅助解释，使内容更加直观和易于理解。

4. 引用相关资料和参考文献，在编写英文计算书时，引用相关的资料和参考文献可以增加书籍的可信度和权威性。

确保正确引用他人的研究成果或观点，并在书的末尾提供参考文献列表，以便读者进一步深入学习和了解相关主题。

5. 审校和修改，在完成初稿后，进行仔细的审校和修改是必不可少的。

检查语法、拼写和标点符号的正确性，确保文本的流畅性和连贯性。

可以请其他人进行校对，以获取更多的反馈和建议。

6. 格式化和排版，最后，对书籍进行适当的格式化和排版。

选择合适的字体、字号和行距，使文本易于阅读。

添加标题、章节编号和页眉页脚，使书籍结构清晰明了。

确保图表和图像的清晰度和可读性。

总之，编写英文计算书需要清晰准确地传达计算概念和原理，提供详细的解释和示例，并使用简洁明了的语言。

同时，审校、修改和适当的格式化也是确保书籍质量的重要步骤。

希望这些指导能对你编写英文计算书有所帮助！。

计算书:
加药装置是和带式压滤机、浓缩脱水一体机、空气离心脱水机等污泥脱水设备相连的，投加污泥絮凝、浓缩、反应药剂的设备。

加药装置设计选型的主要设计依据是药剂投加量和熟液投加量,而熟液投加又和药剂的投加与制备熟液的浓度有关,因此,设计的主要依据是药剂的投加量。

通常来讲,加药装置的下级通讯设备是沉淀池、中和池等溶液反应池，然后再与带机、离心机等污泥脱水设备相连，这样，加药装置药剂投加量的选取就取决于脱水设备的处理量。

在实际的设计过程中，不同种类的污泥所需要的药剂的浓度各不相同。

根据原始数据来设计满足客户要求的加药装置，要知道的就是污泥脱水设备的处理量和待处理污泥的种类。

对于设计中最常用的PAM加药装置，投加的药剂为PAM药粉。

PAM的最大溶解度为0.5%，通常推荐的使用浓度为0.2%-0.3%，这是因为考虑到药剂溶解和投加的余量，不至于对上级或下级通讯造成麻烦：实际使用中，影响PAM药粉溶解的因素有很多，如：溶解水的温度和熟化时间等，所以给予溶解度一定的余量是必要的。

常按照5Kg/tDS,给予不同种类的污泥一定的余量。

知道了药剂的使用量后，就要考虑加药装置的下级通讯设备的处理能力了。

虽然不同的厂家生产的不同的污泥浓缩、脱水设备的处理量有所不同，但是，同种型号的同种设备处理能力总是有一
这样,知道脱水设备的处理能力,又知道每吨干泥所需的药粉量,就可以计算出所需的加药装置的投药量，然后再选配公司的加药装置相应的型号。

离心机对各种污泥的脱水效果。

Process and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature Q p1Differential pressure dp t1[m³/h][bar(g)][bar][°C]15.1752512.67525 3.17525DensityIsentropic exponent Real gas factor Viscosityrho1 gamma Z eta [kg/m³][cP]8.061.4110.01868.061.4210.01868.061.421.000.0186Results and factorsValve coeff. calculatedMin. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][Mach][dB(A)]0.8200.6820.16766655711.20.070410.30.0597 5.090.0144relative travelDifferent. pressure ratio FL value xT valueValve style factor T [%]x FL xT Fd 81.10.620.970.790.2876.30.620.970.790.2642.70.620.980.810.10Level exponent Slope exponentG1G2-3.92-3.95-4.161.501.501.50Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 1.6Nominal size DN [mm]25Pressure ratings PN 40Travel S 15Seat bore SB 12[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]40D2[mm]40cR 5100rho 7800di 43.1s 2.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.3 ... 1.1Diaphr. areaA 240Supplypsu 1.30[bar][cm²][bar][bar(a)][bar(a)][°C](Defaults:p1max 10p2min1.01t1max25)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature Q p1Differential pressure dp t1[m³/h][bar(g)][bar][°C]15.1212112.62121 3.12121DensityIsentropic exponent Real gas factor Viscosityrho1 gamma Z eta [kg/m³][cP]8.661.4110.01868.661.4210.01868.661.421.000.0186Results and factorsValve coeff. calculatedMin. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][Mach][dB(A)] 1.64 1.360.33457554511.00.067610.00.0557 4.960.0137relative travelDifferent. pressure ratio FL value xT valueValve style factor T [%]x FL xT Fd 72.60.330.950.770.2569.60.330.960.780.2235.80.330.970.800.09Level exponent Slope exponentG1G2-3.61-3.70-4.061.501.501.50Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 4Nominal size DN [mm]25Pressure ratings PN 40Travel S 15Seat bore SB 12[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]40D2[mm]40cR 5100rho 7800di 43.1s 2.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.4 (2)Diaphr. areaA 240Supplypsu 2.2[bar][cm²][bar][bar(a)][bar(a)][°C](Defaults:p1max 11p2min1.01t1max21)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature Q p1Differential pressure dp t1[m³/h][bar(g)][bar][°C]15.1752512.67525 3.17525DensityIsentropic exponent Real gas factor Viscosityrho1 gamma Z eta [kg/m³][cP]8.061.4110.01868.061.4210.01868.061.421.000.0186Results and factorsValve coeff. calculatedMin. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][Mach][dB(A)]0.8200.6820.16766655711.20.070410.30.0597 5.090.0144relative travelDifferent. pressure ratio FL value xT valueValve style factor T [%]x FL xT Fd 81.10.620.970.790.2876.30.620.970.790.2642.70.620.980.810.10Level exponent Slope exponentG1G2-3.92-3.95-4.161.501.501.50Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 1.6Nominal size DN [mm]25Pressure ratings PN 40Travel S 15Seat bore SB 12[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]40D2[mm]40cR 5100rho 7800di 43.1s 2.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.3 ... 1.1Diaphr. areaA 240Supplypsu 1.30[bar][cm²][bar][bar(a)][bar(a)][°C](Defaults:p1max 10p2min1.01t1max25)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature Q p1Differential pressure dp t1[m³/h][bar(g)][bar][°C]15.1212112.62121 3.12121DensityIsentropic exponent Real gas factor Viscosityrho1 gamma Z eta [kg/m³][cP]8.061.4110.01868.061.4210.01868.061.421.000.0186Results and factorsValve coeff. calculatedMin. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][Mach][dB(A)] 1.58 1.320.32257544510.80.06479.820.0531 4.870.0132relative travelDifferent. pressure ratio FL value xT valueValve style factor T [%]x FL xT Fd 72.00.330.960.770.2568.60.330.960.780.2134.80.330.970.800.09Level exponent Slope exponentG1G2-3.63-3.71-4.061.501.501.50Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 4Nominal size DN [mm]25Pressure ratings PN 40Travel S 15Seat bore SB 12[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]40D2[mm]40cR 5100rho 7800di 43.1s 2.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.4 (2)Diaphr. areaA 240Supplypsu 2.2[bar][cm²][bar][bar(a)][bar(a)][°C](Defaults:p1max 11p2min1.01t1max21)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature Q p1Differential pressure dp t1[m³/h][bar(g)][bar][°C]15.1752112.67521 3.17521DensityIsentropic exponent Real gas factor Viscosityrho1 gamma Z eta [kg/m³][cP]8.061.4110.01868.061.4210.01868.061.421.000.0186Results and factorsValve coeff. calculatedMin. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][Mach][dB(A)]0.8200.6820.16766655711.20.070410.30.0597 5.090.0144relative travelDifferent. pressure ratio FL value xT valueValve style factor T [%]x FL xT Fd 81.10.620.970.790.2876.30.620.970.790.2642.70.620.980.810.10Level exponent Slope exponentG1G2-3.92-3.95-4.161.501.501.50Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 1.6Nominal size DN [mm]25Pressure ratings PN 40Travel S 15Seat bore SB 12[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]40D2[mm]40cR 5100rho 7800di 43.1s 2.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.3 ... 1.1Diaphr. areaA 240Supplypsu 1.30[bar][cm²][bar][bar(a)][bar(a)][°C](Defaults:p1max 10p2min1.01t1max21)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature Q p1Differential pressure dp t1[m³/h][bar(g)][bar][°C]15.1212112.62121 3.12121DensityIsentropic exponent Real gas factor Viscosityrho1 gamma Z eta [kg/m³][cP]8.061.4110.01868.061.4210.01868.061.421.000.0186Results and factorsValve coeff. calculatedMin. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][Mach][dB(A)] 1.58 1.320.32257544510.80.06479.820.0531 4.870.0132relative travelDifferent. pressure ratio FL value xT valueValve style factor T [%]x FL xT Fd 72.00.330.960.770.2568.60.330.960.780.2134.80.330.970.800.09Level exponent Slope exponentG1G2-3.63-3.71-4.061.501.501.50Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 4Nominal size DN [mm]25Pressure ratings PN 40Travel S 15Seat bore SB 12[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]40D2[mm]40cR 5100rho 7800di 43.1s 2.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.4 (2)Diaphr. areaA 240Supplypsu 2.2[bar][cm²][bar][bar(a)][bar(a)][°C](Defaults:p1max 11p2min1.01t1max21)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature Q p1Differential pressure dp t1[m³/h][bar(g)][bar][°C]15.1752112.67521 3.17521DensityIsentropic exponent Real gas factor Viscosityrho1 gamma Z eta [kg/m³][cP]8.061.4110.01868.061.4210.01868.061.421.000.0186Results and factorsValve coeff. calculatedMin. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][Mach][dB(A)]0.8200.6820.16766655711.20.070410.30.0597 5.090.0144relative travelDifferent. pressure ratio FL value xT valueValve style factor T [%]x FL xT Fd 81.10.620.970.790.2876.30.620.970.790.2642.70.620.980.810.10Level exponent Slope exponentG1G2-3.92-3.95-4.161.501.501.50Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 1.6Nominal size DN [mm]25Pressure ratings PN 40Travel S 15Seat bore SB 12[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]40D2[mm]40cR 5100rho 7800di 43.1s 2.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.3 ... 1.1Diaphr. areaA 240Supplypsu 1.30[bar][cm²][bar][bar(a)][bar(a)][°C](Defaults:p1max 10p2min1.01t1max21)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature Q p1Differential pressure dp t1[m³/h][bar(g)][bar][°C]15.1212112.62121 3.12121DensityIsentropic exponent Real gas factor Viscosityrho1 gamma Z eta [kg/m³][cP]8.061.4110.01868.061.4210.01868.061.421.000.0186Results and factorsValve coeff. calculatedMin. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][Mach][dB(A)] 1.58 1.320.32257544510.80.06479.820.0531 4.870.0132relative travelDifferent. pressure ratio FL value xT valueValve style factor T [%]x FL xT Fd 72.00.330.960.770.2568.60.330.960.780.2134.80.330.970.800.09Level exponent Slope exponentG1G2-3.63-3.71-4.061.501.501.50Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 4Nominal size DN [mm]25Pressure ratings PN 40Travel S 15Seat bore SB 12[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]40D2[mm]40cR 5100rho 7800di 43.1s 2.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.4 (2)Diaphr. areaA 240Supplypsu 2.2[bar][cm²][bar][bar(a)][bar(a)][°C](Defaults:p1max 11p2min1.01t1max21)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature W p1Differential pressure dp t1[kg/h][bar(g)][bar][°C]15285.20.5401273.445.20.540318.365.20.540DensityVapor pressure Critical pressure Viscosityrho1pv pc eta[kg/m³][bar(a)][bar(a)][mPas]14000.565935.80.4714000.565935.80.4714000.565935.80.47Results and factorsValve coeff. calculated Min. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][m/s][dB(A)] 1.83 1.520.393<30<30<308.790.6188.020.515 4.010.129relative travelDifferent. pressure ratio FL value xFmr valueValve style factor T [%]xF FL xFmr Fd 74.50.090.950.700.2771.40.090.960.700.2440.60.090.970.710.10xFz value at load xFz 0.570.590.71Level exponent Slope exponent Correct. termF1F2delta Lf [dB]-7.20-7.21-7.740.300.300.300Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 4Nominal size DN [mm]25Pressure ratings PN 40Travel S 15Seat bore SB 12[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]40D2[mm]40cR 5100rho 7800di 43.1s 2.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.4 (2)Diaphr. areaA 240Supplypsu 2.20[bar][cm²][bar][bar(g)][bar(g)][°C](Defaults:p1max 10p2mint1max40)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature W p1Differential pressure dp t1[kg/h][bar(g)][bar][°C]375658567.7275408567.768858567.7DensityVapor pressure Critical pressure Viscosityrho1pv pc eta[kg/m³][bar(a)][bar(a)][mPas]13391.962836.40.2313391.962836.40.2313391.962836.40.23Results and factorsValve coeff. calculated Min. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][m/s][dB(A)]14.610.7 2.6683.582.37644.53.9738.12.9119.10.727relative travelDifferent. pressure ratio FL value xFmr valueValve style factor T [%]xF FL xFmr Fd 79.40.710.930.700.4370.70.710.940.700.4240.60.710.970.700.30xFz value at load xFz 0.310.320.36Level exponent Slope exponent Correct. termF1F2delta Lf [dB]-6.87-6.84-6.840.300.300.30-5.65-6.18-9.83Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 25Nominal size DN [mm]50Pressure ratings PN 40Travel S 15Seat bore SB 38[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L stell.Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]100D2[mm]100cR 5100rho 7800di 107.1s 3.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.9 ... 3.3Diaphr. areaA 240Supplypsu 3.50[bar][cm²][bar][bar(g)][bar(g)][°C](Defaults:p1max 12p2mint1max67.7)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature W p1Differential pressure dp t1[kg/h][bar(g)][bar][°C]7506380.567.75508080.567.71377080.567.7DensityVapor pressure Critical pressure Viscosityrho1pv pc eta[kg/m³][bar(a)][bar(a)][mPas]13391.962836.40.2313391.962836.40.2313391.962836.40.23Results and factorsValve coeff. calculated Min. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][m/s][dB(A)]92.967.816.850483963.01.9853.91.4527.00.364relative travelDifferent. pressure ratio FL value xFmr valueValve style factor T [%]xF FL xFmr Fd 77.10.070.910.700.4366.70.070.930.700.4239.00.070.960.700.30xFz value at load xFz 0.220.240.36Level exponent Slope exponent Correct. termF1F2delta Lf [dB]-6.92-6.95-7.090.300.300.300Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 160Nominal size DN [mm]100Pressure ratings PN 40Travel S 30Seat bore SB 100[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 16[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]150D2[mm]150cR 5100rho 7800di 159.3s 4.5[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 2.1 ... 3.3Diaphr. areaA 700Supplypsu 3.50[bar][cm²][bar][bar(g)][bar(g)][°C](Defaults:p1max 12p2mint1max67.7)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature Q p1Differential pressure dp t1[m³/h][bar(g)][bar][°C]3386.570DensityVapor pressure Critical pressure Viscosityrho1pv pc eta[kg/m³][bar(a)][bar(a)][mPas]13392400.23Results and factorsValve coeff. calculated Min. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][m/s][dB(A)]15.57760.44.67relative travelDifferent. pressure ratio FL value xFmr valueValve style factor T [%]xF FL xFmr Fd 51.70.930.930.700.42xFz value at load xFz 0.30Level exponent Slope exponent Correct. termF1F2delta Lf [dB]-6.870.30-9.73Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 40Nominal size DN [mm]50Pressure ratings PN 40Travel S 15Seat bore SB 48[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]100D2[mm]100cR 5100rho 7800di 107.1s 3.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.retracts Bench range ps0 0.2 (1)Diaphr. areaA 240Supplypsu 2.4[bar][cm²][bar][bar(a)][bar(a)][°C](Defaults:p1max 12p2min1.01t1max70)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature W p1Differential pressure dp t1[kg/h][bar(g)][bar][°C]4471360.5713376360.571844160.571DensityVapor pressure Critical pressure Viscosityrho1pv pc eta[kg/m³][bar(a)][bar(a)][mPas]13392.078136.20.22513392.078136.20.22513392.078136.20.225Results and factorsValve coeff. calculated Min. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][m/s][dB(A)]54.941.410.348463748.61.8542.21.3921.10.348relative travelDifferent. pressure ratio FL value xFmr valueValve style factor T [%]xF FL xFmr Fd 84.20.100.920.700.4472.40.100.930.700.4336.10.100.960.700.32xFz value at load xFz 0.210.220.34Level exponent Slope exponent Correct. termF1F2delta Lf [dB]-6.74-6.77-6.910.300.300.300Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 80Nominal size DN [mm]80Pressure ratings PN 40Travel S 15Seat bore SB 80[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]100D2[mm]100cR 5100rho 7800di 107.1s 3.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 2.1 ... 3.3Diaphr. areaA 350Supplypsu 3.50[bar][cm²][bar][bar(g)][bar(g)][°C](Defaults:p1max 9p2mint1max71)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature W p1Differential pressure dp t1[kg/h][bar(g)][bar][°C]4502550.5213752150.5219380.2550.521DensityVapor pressure Critical pressure Viscosityrho1pv pc eta[kg/m³][bar(a)][bar(a)][cP]15000.270334.90.4915000.270334.90.4915000.270334.90.49Results and factorsValve coeff. calculated Min. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][m/s][dB(A)]52.243.410.847463846.11.6642.11.3821.00.346relative travelDifferent. pressure ratio FL value xFmr valueValve style factor T [%]xF FL xFmr Fd 81.90.090.920.700.4374.20.090.930.700.4337.30.090.960.700.33xFz value at load xFz 0.210.220.33Level exponent Slope exponent Correct. termF1F2delta Lf [dB]-6.74-6.76-6.900.300.300.300Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 80Nominal size DN [mm]80Pressure ratings PN 40Travel S 15Seat bore SB 80[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]100D2[mm]100cR 5100rho 7800di 107.1s 3.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 2.1 ... 3.3Diaphr. areaA 350Supplypsu 3.50[bar][cm²][bar][bar(g)][bar(g)][°C](Defaults:p1max 9p2mint1max21)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature W p1Differential pressure dp t1[kg/h][bar(g)][bar][°C]92338150.7677658150.761941.258150.76DensityVapor pressure Critical pressure Viscosityrho1pv pc eta[kg/m³][bar(a)][bar(a)][cP]1275.71.952640.80.2121275.71.952640.80.2121275.71.952640.80.212Results and factorsValve coeff. calculated Min. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][m/s][dB(A)]8.19 6.88 1.723735<3022.61.6020.71.3510.40.336relative travelDifferent. pressure ratio FL value xFmr valueValve style factor T [%]xF FL xFmr Fd 78.90.140.940.700.2874.40.140.940.700.2638.80.140.970.700.10xFz value at load xFz 0.420.450.62Level exponent Slope exponent Correct. termF1F2delta Lf [dB]-7.14-7.17-7.450.300.300.300Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 16Nominal size DN [mm]40Pressure ratings PN 40Travel S 15Seat bore SB 31[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]50D2[mm]50cR 5100rho 7800di 54.5s 2.9[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 0.9 ... 3.3Diaphr. areaA 240Supplypsu 3.5[bar][cm²][bar][bar(g)][bar(g)][°C](Defaults:p1max 11p2mint1max21)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature W p1Differential pressure dp t1[kg/h][bar(g)][bar][°C]452428550.76321858550.7680468550.76DensityVapor pressure Critical pressure Viscosityrho1pv pc eta[kg/m³][bar(a)][bar(a)][cP]1275.71.952640.80.2121275.71.952640.80.2121275.71.952640.80.212Results and factorsValve coeff. calculated Min. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][m/s][dB(A)]17.912.7 3.1983817150.11.9642.21.3921.10.349relative travelDifferent. pressure ratio FL value xFmr valueValve style factor T [%]xF FL xFmr Fd 55.80.710.950.700.4246.90.710.960.700.4123.90.710.970.700.24xFz value at load xFz 0.290.320.47Level exponent Slope exponent Correct. termF1F2delta Lf [dB]-6.87-6.90-7.370.300.300.30-9.60-9.46-7.45Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 40Nominal size DN [mm]80Pressure ratings PN 40Travel S 15Seat bore SB 48[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 10[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]100D2[mm]100cR 5100rho 7800di 107.1s 3.6[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 1.4 ... 2.3Diaphr. areaA 350Supplypsu 2.5[bar][cm²][bar][bar(g)][bar(g)][°C](Defaults:p1max 11p2mint1max50.76)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature W p1Differential pressure dp t1[kg/h][bar(g)][bar][°C]227798110.586199000110.58649750110.586DensityVapor pressure Critical pressure Viscosityrho1pv pc eta[kg/m³][bar(a)][bar(a)][cP]1201.14.851640.60.1321201.14.851640.60.1321201.14.851640.60.132Results and factorsValve coeff. calculated Min. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][m/s][dB(A)]29425764.25150401161.681081.4654.10.366relative travelDifferent. pressure ratio FL value xFmr valueValve style factor T [%]xF FL xFmr Fd 59.60.070.920.700.4255.80.070.930.700.4230.90.070.960.700.29xFz value at load xFz 0.230.240.36Level exponent Slope exponent Correct. termF1F2delta Lf [dB]-7.45-7.46-7.620.300.300.300Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 630Nominal size DN [mm]200Pressure ratings PN 40Travel S 60Seat bore SB 200[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 40[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]200D2[mm]200cR 5100rho 7800di 206.5s 6.3[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.extends Bench range ps0 2 (3)Diaphr. areaA 2800Supplypsu 3.2[bar][cm²][bar][bar(g)][bar(g)][°C](Defaults:p1max 15p2mint1max86)Actuator resultsProcess and medium dataCase 1Case 2Case 3FlowInlet pressureInlet temperature Q p1Differential pressure dp t1[m³/h][bar(g)][bar][°C]6611683.6DensityVapor pressure Critical pressure Viscosityrho1pv pc eta[kg/m³][bar(a)][bar(a)][cP]12002.5400.13Results and factorsValve coeff. calculated Min. req. size Outlet velocitySPL VDMA 24422 mod. KvLA Req. DN w [mm][m/s][dB(A)]29.683.868.32.33relative travelDifferent. pressure ratio FL value xFmr valueValve style factor T [%]xF FL xFmr Fd 75.90.630.950.700.42xFz value at load xFz 0.29Level exponent Slope exponent Correct. termF1F2delta Lf [dB]-6.980.30-8.47Valve dataBody typeGlobe valve Series 240Type3241Valve coefficient Kvs 63Nominal size DN [mm]100Pressure ratings PN 40Travel S 30Seat bore SB 63[mm][mm]Body material 1.4408Noise reduction without Charact.Equal perc.Flow direction FTO Stem diameterSd 16[mm]Balanced without Internal parts material 4404 / 316L Leakage rate IVPacking PTFE (1.6)Sealingmetal (2)BonnetbellowsPipe dataType of pipe Steel pipe Pipe insulation noneD1[mm]150D2[mm]150cR 5100rho 7800di 159.3s 4.5[m/s][kg/m³][mm][mm]Actuator dataType3271Fail-safe act.retracts Bench range ps0 0.2 (1)Diaphr. areaA 700Supplypsu 2[bar][cm²][bar][bar(g)][bar(g)][°C](Defaults:p1max 14p2mint1max86)Actuator results。

3d3s结构计算书英文版I'm sorry, but I cannot provide you with a specific book titled "3d3s Structural Calculation" in English. However, I can provide you with some general information about structural calculation books in the field of 3D structural engineering.There are numerous books available in the field of structural analysis and design that cover the principles and techniques of 3D structural calculations. Some popular books in this area include:1. "Structural Analysis" by R.C. Hibbeler: This book provides a comprehensive introduction to structural analysis, covering both 2D and 3D structural systems. It explains various analysis methods and techniques, including the finite element method.2. "Matrix Methods of Structural Analysis" by P. Pandit and S. Gupta: This book focuses on the matrix methods ofstructural analysis, including the stiffness method and flexibility method. It covers both 2D and 3D structures and provides detailed explanations and examples.3. "Structural Analysis and Design of Tall Buildings"by Taranath, B.S.: This book specifically focuses on the analysis and design of tall buildings, including their behavior under various loading conditions. It covers 3D modeling, lateral load analysis, and design considerations for tall structures.4. "Finite Element Analysis: Theory and Applicationwith ANSYS" by Saeed Moaveni: This book introduces thefinite element method for structural analysis. It coversthe theory and application of finite element analysis using the ANSYS software, which is widely used in 3D structural calculations.These books provide a good foundation for understanding the principles and techniques of 3D structural calculations. They cover various topics such as structural modeling, analysis methods, and design considerations. It isimportant to note that the availability of specific books may vary depending on your location and the edition you are looking for.I hope this information is helpful to you in your search for English books on 3D structural calculations.。

附录Ⅱ电气设备校验：断路器校验：220kv 电压等级断路器的校验所选断路器LW1-220，Un ≧Uns=220kv ，满足要求。

流过断路器的最大持续工作电流：Imax=1.05Ins=1.05*240000/（1.714*220）=6.3A 。

(1) 动稳定校验Imax=6.3A ，断路器的额定电流In=2000A ，所以Imax ＜In ；动稳定峰值Ies=80KA ，Ish=3.15KA,所以Ies ＞ Ish 则；稳定校验合格。

(2) 热稳定校验短路点流的热效应（KA 2.S ），设继电保护时间tpr 为0.15秒，则短路：St t t t t t a in pr br pr K 224.004.0025.015.0=++=++=+=；其中K t ———验算热稳定的的短路时间；pr t ———后备保护动作时间；in t ———固有分闸时间；a t ———电弧持续时间；SKAt I Q k Z K⋅=⨯=⨯=222''332.0224.02.1；SKA t I Q t r ⋅=⨯=⋅=222396935.31；即 k rQ Q > 满足要求110kv 电压等级断路器的校验所选断路器SW4-11，Un ≧Uns=110kv ，满足要求。

流过断路器的最大持续工作电流：Imax=1.05Ins=1.05*350000/（1.714*110）=19.4A 。

（1）动稳定校验Imax=19.4A ，断路器的额定电流In=1260A ，所以Imax ＜In ，动稳定峰值Ies=80KA ，Ish=6.8KA,所以Ies ＞ Ish ，则稳定校验合格。

（2）热稳定校验短路点流的热效应（KA 2.S ），设继电保护时间tpr 为0.15秒，则短路：St t t t t t a in pr br pr K 226.006.0025.015.0=++=++=+=S KAt I Q k Z K ⋅=⨯=⨯=222''5.2226.032.3SKAt I Q t r ⋅=⨯=⋅=222101534.18；即k r Q Q > 满足要求。

A＋K选型计算书中英文对照A+ FlowTek Program Suite Ver. #2.0.2Friday, July 11, 2008 3:55:41 PM______________节流装置：平衡流量计- 流体计算设计Flow Element: Balanced Flow Meter - Liq Mass Flow, Sizing and Design ______________工程师Engineer:项目名称Project Name:仪表位号Tag No.:项目编号Project Number:仪表型号Model:介质名称： Fluid:______________管道规格说明Pipe Specifications:(User Spec:)管道内径Pipe ID =管道直径Diameter =管道壁厚Schedule =管道粗糙度Pipe Roughness =管道材质Material =______________平衡流量计规格Balanced Flow Meter Specifications:取压口海拔高度变化（一般情况下，该值取0）Tap Elevation Change = 0 ftß值Beta Ratio =校准系数Calibration Factor =节流件厚度Plate Thickness = 3/8 Inch平衡流量计类型＝与雷诺数相匹配Balanced Flow Meter Type = Reynolds Number Matching (NRe)第一层孔的个数1st Ring Number of Holes =第二层孔的个数2nd Ring Number of Holes =孔的设计＝直角切孔Hole Design = Square cut holes.适合位置＝直管段>5 Fitting Location = Upstream fitting L/D > 5.加工类型＝无脏物类型Process Type = Non-fouling service.孔的设计＝孔的标准设计Hole Clearance Design = Hole layout based on standard design.______________流体过程数据Process Data at Flowing Conditions:刻度流量Mass Flow =温度Temperature =压力Pressure =密度Density =动力粘度Viscosity =蒸发压力Vapor Pressure =注意：流体状态计算包括管道/节流原件的热膨胀效应Note: Pipe/Flow-Element thermal expansion effects at flowing conditions included in sizing and fabrication specifications.______________平衡流量计基本设计数据Balanced Flow Meter Flow Element Design Basis:刻度差压Tap Pressure Drop =刻度差压Flow Pressure Drop =海拔高度对应的大气压相对变化Elevation Pressure Change =永久压力损失Permanent Pressure Loss =压力恢复Pressure Recovery =流出系数Total Cd =雷诺数Reynolds No. =。

GEA ECOFLEX Plate Heat Exchanger:NT150S CD-10Thermal data for 1 unit(s) in parallel and 1 unit(s) in series （热力参数）hot side（热侧）cold side冷侧Media: （介质）Water WaterMedia group acc. PED 97/23/EC:Group 2 - others Group 2 - othersHeat exchanged: （换热量）3500.00 kWMass flow: （质量流量）120253 301349 kg/h Volume flow: （体积流量）123.17 301.95 m3/h Temperature inlet: （入口温度）85.00 16.00 °C Temperature outlet: （出口温度）60.00 26.00 °C Pressure drop: （压力损失）81 481 mbar Working pressure inlet: （入口压力）10.00 10.00 barg Product properties （介质物性）Density: （密度）976.33 998.00 kg/m3 Heat capacity: （比热）4191.16 4181.19 J/kgK Thermal conductivity: （导热系数）0.66275 0.59931 W/mK Dyn. viscosity inlet: （入口粘度）0.000334 0.001108 kg/ms Dyn. viscosity outlet: （出口粘度）0.000466 0.000871 kg/ms Unit Data （设备参数）Plate Type: （板片型号）NT150S VHeat transfer area (total / per unit): （换热面积）37.44 37.44 m2 Number of plates (total / per unit): （板片数量）74 74Plate thickness: （板片厚度）0.50 mm LMTD: （对数平均温差）51.13 K Surface margin: （设计裕量）203.4 %Plate material: （板片材质）AISI316Gasket material / Gasket type: （垫片材质）NBR gluelessInternal flow (passes x channels): 1 x 36 1 x 37No. of frames (par. / ser. / total): 1 1 1Frame material und surface:S235-JRG2 painted RAL5002The connection types and positions are defined in the attached dimension sheet.接管口径及位置详见外形尺寸图Design temperature:Min.: 0.00 / 0.00 Max.:85.00 / 85.00 °C Design pressure:Min.: 0.00 / 0.00 Max.:10.00 / 10.00 bargTest pressure:13.00 / 13.00 barg Design code:PED 97/23/EC AD-2000 Checkfactor 1.3 Category: Art.3, Abs. 3 Conformity assessment procedure:Type/Remarks: NormalType: NT150S CD-10Dimensions of drawing in [mm]Technical Revisions reserved. Layer thickness in case of painted frames acc. DIN EN ISO 12944-5, frame plate surface quality acc. DIN EN 10029. The design details are valid for phe manufactured by GEA Ecoflex GmbH/Sarstedt.GEA ECOFLEX Plate Heat Exchanger:NT100T CDL-10Thermal data for 1 unit(s) in parallel and 1 unit(s) in series （热力参数）hot side（热侧）cold side冷侧Media: （介质）Water WaterMedia group acc. PED 97/23/EC:Group 2 – others Group 2 – othersHeat exchanged: （换热量）2014.00 kWMass flow: （质量流量）69197 173405 kg/h Volume flow: （体积流量）70.87 173.75 m3/h Temperature inlet: （入口温度）85.00 16.00 °C Temperature outlet: （出口温度）60.00 26.00 °C Pressure drop: （压力损失）89 476 mbar Working pressure inlet: （入口压力）10.00 10.00 barg Product properties （介质物性）Density: （密度）976.33 998.00 kg/m3 Heat capacity: （比热）4191.16 4181.19 J/kgK Thermal conductivity: （导热系数）0.66275 0.59931 W/mK Dyn. Viscosity inlet: （入口粘度）0.000334 0.001108 kg/ms Dyn. Viscosity outlet: （出口粘度）0.000466 0.000871 kg/ms Unit Data （设备参数）Plate Type: （板片型号）NT100T VHeat transfer area (total / per unit): （换热面积）19.00 19.00 m2 Number of plates (total / per unit): （板片数量）78 78Plate thickness: （板片厚度）0.50 mm LMTD: （对数平均温差）51.13 K Surface margin: （设计裕量）116.6 %Plate material: （板片材质）AISI316Gasket material / Gasket type: （垫片材质）NBR gluelessInternal flow (passes x channels): 1 x 38 1 x 39No. of frames (par. / ser. / total): 1 1 1Frame material und surface:S235-JRG2 painted RAL5002The connection types and positions are defined in the attached dimension sheet.接管口径及位置详见外形尺寸图Design temperature:Min.: 0.00 / 0.00 Max.:85.00 / 85.00 °C Design pressure:Min.: 0.00 / 0.00 Max.:10.00 / 10.00 bargTest pressure:13.00 / 13.00 barg Design code:PED 97/23/EC AD-2000 Checkfactor 1.3 Category: Art.3, Abs. 3 Conformity assessment procedure:Type/Remarks: NormalType: NT100T CDL-10Dimensions of drawing in [mm]Technical Revisions reserved. Layer thickness in case of painted frames acc. DIN EN ISO 12944-5, frame plate surface quality acc. DIN EN 10029. The design details are valid for phe manufactured by GEA Ecoflex GmbH/Sarstedt.GEA ECOFLEX Plate Heat Exchanger:NT250S B-10Thermal data for 1 unit(s) in parallel and 1 unit(s) in series （热力参数）hot side（热侧）cold side冷侧Media: （介质）Water WaterMedia group acc. PED 97/23/EC:Group 2 – others Group 2 – othersHeat exchanged: （换热量）3285.00 kWMass flow: （质量流量）566087 566094 kg/h Volume flow: （体积流量）569.79 569.40 m3/h Temperature inlet: （入口温度）39.00 32.00 °C Temperature outlet: （出口温度）34.00 37.00 °C Pressure drop: （压力损失）489 489 mbar Working pressure inlet: （入口压力）10.00 10.00 barg Product properties （介质物性）Density: （密度）993.49 994.19 kg/m3 Heat capacity: （比热）4178.15 4178.11 J/kgK Thermal conductivity: （导热系数）0.62361 0.62078 W/mK Dyn. Viscosity inlet: （入口粘度）0.000665 0.000765 kg/ms Dyn. Viscosity outlet: （出口粘度）0.000734 0.000691 kg/ms Unit Data （设备参数）Plate Type: （板片型号）NT250S HVHeat transfer area (total / per unit): （换热面积）226.54 226.54 m2 Number of plates (total / per unit): （板片数量）243 243Plate thickness: （板片厚度）0.50 mm LMTD: （对数平均温差） 2.00 K Surface margin: （设计裕量）0.0 %Plate material: （板片材质）AISI316Gasket material / Gasket type: （垫片材质）NBR gluelessInternal flow (passes x channels): 1 x 121 1 x 121No. of frames (par. / ser. / total): 1 1 1Frame material und surface:S235-JRG2 painted RAL5002The connection types and positions are defined in the attached dimension sheet.接管口径及位置详见外形尺寸图Design temperature:Min.: 0.00 / 0.00 Max.:39.00 / 39.00 °C Design pressure:Min.: 0.00 / 0.00 Max.:10.00 / 10.00 bargTest pressure:13.00 / 13.00 barg Design code:PED 97/23/EC AD-2000 Checkfactor 1.3 Category: Art.3, Abs. 3 Conformity assessment procedure:Type/Remarks: NormalType: NT250S B-10Dimensions of drawing in [mm]Technical Revisions reserved. Layer thickness in case of painted frames acc. DIN EN ISO 12944-5, frame plate surface quality acc. DIN EN 10029. The design details are valid for phe manufactured by GEA Ecoflex GmbH/Sarstedt.GEA ECOFLEX Plate Heat Exchanger:NT150L B-10Thermal data for 1 unit(s) in parallel and 1 unit(s) in series （热力参数）hot side（热侧）cold side冷侧Media: （介质）Water WaterMedia group acc. PED 97/23/EC:Group 2 - others Group 2 - othersHeat exchanged: （换热量）1500.00 kWMass flow: （质量流量）258487 258490 kg/h Volume flow: （体积流量）260.18 260.00 m3/h Temperature inlet: （入口温度）39.00 32.00 °C Temperature outlet: （出口温度）34.00 37.00 °C Pressure drop: （压力损失）490 479 mbar Working pressure inlet: （入口压力）10.00 10.00 barg Product properties （介质物性）Density: （密度）993.49 994.19 kg/m3 Heat capacity: （比热）4178.15 4178.11 J/kgK Thermal conductivity: （导热系数）0.62361 0.62078 W/mK Dyn. viscosity inlet: （入口粘度）0.000665 0.000765 kg/ms Dyn. viscosity outlet: （出口粘度）0.000734 0.000691 kg/ms Unit Data （设备参数）Plate Type: （板片型号）NT150L HVHeat transfer area (total / per unit): （换热面积）108.24 108.24 m2 Number of plates (total / per unit): （板片数量）134 134Plate thickness: （板片厚度）0.50 mm LMTD: （对数平均温差） 2.00 K Surface margin: （设计裕量） 1.5 %Plate material: （板片材质）AISI316Gasket material / Gasket type: （垫片材质）NBR gluelessInternal flow (passes x channels): 1 x 66 1 x 67No. of frames (par. / ser. / total): 1 1 1Frame material und surface:S235-JRG2 painted RAL5002The connection types and positions are defined in the attached dimension sheet.接管口径及位置详见外形尺寸图Design temperature:Min.: 0.00 / 0.00 Max.:39.00 / 39.00 °C Design pressure:Min.: 0.00 / 0.00 Max.:10.00 / 10.00 bargTest pressure:13.00 / 13.00 barg Design code:PED 97/23/EC AD-2000 Checkfactor 1.3 Category: Art.3, Abs. 3 Conformity assessment procedure:Type/Remarks: NormalType: NT150L B-10Dimensions of drawing in [mm]Technical Revisions reserved. Layer thickness in case of painted frames acc. DIN EN ISO 12944-5, frame plate surface quality acc. DIN EN 10029. The design details are valid for phe manufactured by GEA Ecoflex GmbH/Sarstedt.。

2Item Revision1345介质气液水流量单位压力单位温度1Rev0水液体流量 Liquid Flow Rate (Q)Kg/h MpaGºT2Rev1污水气体流量 Gas Flow Rate (Q)l/m MpaAºC3Rev2除盐水饱和蒸汽流量 Steam Flow Rate (Q)m3/h Kg/cm2G4Rev3饱和蒸汽过热蒸汽流量 Vapor Flow Rate (Q)Nm3/h Kg/cm2A5Rev4过热蒸汽lb/h6Rev57Rev68Rev79Rev810Rev911Rev10121314151617181920212223242517 6789101113141516比重/摩尔密度管道尺寸及号阀体，阀盖类型尺寸SG1/2 Inch STD直通阀 Globe1/2 InchM3/4 Inch STD笼式阀 Globe3/4 Inch1 Inch, STD柱塞阀 Globe 1 Inch1-1/2 Inch STD角型阀 Angle1-1/2 Inch2 Inch, STD V型球阀 V-Ball 2 Inch2-1/2 Inch STD球阀 Ball2-1/2 Inch3 Inch, STD偏心旋转 e-Plug 3 Inch4 Inch, STD中线蝶阀 BFV 4 Inch5 Inch, STD两偏心蝶阀 Db-BFV 5 Inch6 Inch, STD三偏心蝶阀 Tri-BFV 6 Inch8 Inch, STD8 Inch10 Inch,STD10 Inch12 Inch,STD12 Inch14 Inch,STD14 Inch16 Inch,STD16 Inch18 Inch,STD18 Inch20 Inch,STD20 Inch17181920212223242526压力等级制造商型号阀体材质导向材料进口连接表面光洁度流向ANSI 150HES WCB304ANSI 150 RF Stock Finish上 UPANSI 300HEC WCC316ANSI 300 RF下 DOWNANSI 600HEAC WC6304L ANSI 600 RF正向 FORWARD ANSI 900V150WC9316L ANSI 900 RF反向 REVERSE ANSI 900V300304ANSI 900 RTJANSI 1500V500316ANSI 1500 RTJ8500304L8560316L85323327282930313234阀盖类型填料材质类型阀座尺寸行程流量特性平阀盖 Plain单四氟 PTFE V-型1/8 Inch1/2 Inch等百 EP延伸径 EXT1单石墨 Graphite层压型 Laminated3/8 Inch3/4 Inch快开 QO延伸径 EXT2双四氟 PTFE1/2 Inch 1 Inch线性 Linear双石墨 Graphite3/4 Inch1-1/8 Inch修改等百 Mod EP1 Inch1-1/2 Inch修改线性 Mod Linea1-1/2 Inch1-3/4 Inch2 Inch 2 Inch2-1/2 Inch 3 Inch3 Inch4 Inch4 Inch5 Inch6 Inch8 Inch10 Inch12 Inch14 Inch16 Inch18 Inch20 Inch3536373839404142434445464748495051平衡阀塞材料阀座材料阀笼材料阀杆材料Balance304304304304Unbalance316316316316304L304L304L304L316L316L316L316L修改线性 Mod Linear304-ST304-ST304-ST304-ST316-ST316-ST316-ST316-ST304L-ST304L-ST304L-ST304L-ST316L-ST316L-ST316L-ST316L-ST525354555657585960616263执行器类型制造商型号尺寸开关/调节弹簧动作动作方向气动薄膜 Spring & Diaphragm HAD65730是 Yes阀开 Open阀开 Open 双作用气缸型 Piston HAD66734否 No阀关 Close阀关 Close 气缸弹簧式 Piston Spring105240电动执行机构 Electric106145MD46SD50YMD60SMD70DKJ76808710071 6465#67686970手轮类型阀门失气输入信号定位器形式制造商型号信号增加 输出压力表顶装 TOP阀开 Open4-20 mA电气阀门定位器YT1000增大输出 Output侧装 Side阀关 Close4-12 mA气动定位器YT3300减少气源及输出 Supply & Output 阀锁定 LOCK12-20 mA无YT3400无DVC6000EA91EA90ES103582i74727375767778旁路定位器特性限位开关形式数量制造商型号接点类型报警位置有 Yes等百 EP电感11L5001触点开关开 Open无 No线性 Linear电阻2接近开关关 Close快开 QO3开和关 Open & Close8179808283848586过滤减压阀设定压力过滤器压力表水压试验密封等级YT-300 2.8 Kg/cm2带 Yes带 Yes是 Yes一级 ANSI CLASS IYT-320 3 Kg/cm2无 No无 No无 No二级 ANSI CLASS IIYT-310 5 kg/cm2三级 ANSI CLASS IIIYT-305四级 ANSI CLASS IVYT-325五级 ANSI CLASS VYT-315六级 ANSI CLASS VI67CRF。

HMT331 Humidity and Temperature TransmitterFor wall mounting1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT3301A0A PRICE 1Transmitter type HMT33112Wall probe A3No additional temperature probe04Parameters RH+T ARH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT B5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC, 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0...100%RH)B B B10T (range: see below)C C CTd (-20...100°C)(-4...+212 °F)D D DTdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)BNote:-20...+60°C(-4...+140°F)F- Choose option A, if no0...+60°C(+32...+140°F)KT output is desired Special:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5 m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type General purpose HUMICAP1801Special sensor for high chemical concentrations HUMICAP180L22Chemical purge HUMICAP180C4General purpose and high chemical concentrations HUMICAP180R AChemical purge HUMICAP180RC C18Sensor protection PPS plastic grid & stainless steel netting APPS plastic grid BSintered stainless steel filter C19No probe installation kit A20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No AService cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract) FISO 17025 Accredited calibration, 7 points (RH+T) 0...60°C (replaces standard factory calibration)KISO 17025 Accredited calibration, 7 points (RH+T) 0...60°C 3 years (calibration contract)LISO 17025 Accredited calibration, 7 points (RH+T) 0...60°C 5 years (calibration contract)M23Additional maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.Example of order code with typical settings:For general use1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT33030PRICE 1Transmitter type HMT33332Cable length 2 m cable, +80°C E5 m cable, +80°C F10 m cable, +80°C G2 m cable, +120°C45 m cable, +120°C510 m cable, +120°C 63No additional temperature probe04Parameters RH+T ARH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT B5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC , 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0... 100%RH)B B B10T(range: see below)C C CTd (-20...100°C)(-4...+212 °F)D D DTdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)B- Choose option A, if no-40...+80°C(-40...+176°F)CT output is desired-40...+120°C(-40...+248°F)D-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)H0...+60°C(+32...+140°F)K0...+120°C(+32...248°F)Mspecial:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type General purpose HUMICAP1801Special sensor for high chemical concentrations HUMICAP180L22Chemical purge HUMICAP180C4General purpose and high chemical concentrations HUMICAP180R AChemical purge HUMICAP180RC C18Sensor protection PPS plastic grid & stainless steel netting APPS plastic grid BSintered stainless steel filter C19Installation kit No kit A for probe Duct installation kit CCable gland AGRO D20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No A Service cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract)FISO 17025 Accredited calibration, 7 points (RH+T) (replaces standard factory calibration)GISO 17025 Accredited calibration, 7 points (RH+T) 3 years (calibration contract) HISO 17025 Accredited calibration, 7 points (RH+T) 5 years (calibration contract)J23Additional Maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.For pressurized processes1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT33040PRICE 1Transmitter type HMT33442Cable lenght 2 m cable H5 m cable J10 m cable K3No additional temperature probe04Parameters RH+T ARH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT B5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC , 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0... 100%RH)B B B10T(range: see below)C C CTd (-20...100°C)(-4...+212 °F)D D DTdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A, if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)B-40...+80°C(-40...+176°F)CNote:-40...+120°C(-40...+248°F)D- Choose option A, if no-40...+180°C(-40...+356°F)ET output is desired-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)H-20...+180°C(-4...+356°F)J0...+60°C(+32...+140°F)K0...+100°C(+32...+ 212°F)L0...+120°C(+32...248°F)M0...+180°C(+32...356°F)N-60...60 °C(-76...+140°F)PSpecial:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type General purpose HUMICAP1801Special sensor for high chemical concentrations HUMICAP180L22Chemical purge HUMICAP180C4General purpose and high chemical concentrations HUMICAP180R AChemical purge HUMICAP180RC C18Sensor protection PPS plastic grid & stainless steel netting APPS plastic grid BSintered stainless steel filter CStainless steel grid D19Installation kit Fitting body M22 x 1,5E for probe Fitting body NPT 1/2"F20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No A Service cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract)FISO 17025 Accredited calibration, 7 points (RH+T) (replaces standard factory calibration)GISO 17025 Accredited calibration, 7 points (RH+T) 3 years (calibration contract)HISO 17025 Accredited calibration, 7 points (RH+T) 5 years (calibration contract)J23Additional Maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.For high temperatures1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT33050PRICE 1Transmitter type HMT33552Cable lenght 2 m cable L5 m cable M10 m cable N3No additional temperature probe04Parameters RH+T ARH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT B5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC , 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0... 100%RH)B B B10T(range: see below)C C CTd (-20...100°C)(-4...+212 °F)D D DTdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A, if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)B-40...+80°C(-40...+176°F)CNote:-40...+120°C(-40...+248°F)D- Choose option A, if no-40...+180°C(-40...+356°F)ET output is desired-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)H-20...+180°C(-4...+356°F)J0...+60°C(+32...+140°F)K0...+100°C(+32...+ 212°F)L0...+120°C(+32...248°F)M0...+180°C(+32...356°F)N-60...60 °C(-76...+140°F)PSpecial:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type General purpose HUMICAP1801Special sensor for high chemical concentrations HUMICAP180L22Chemical purge HUMICAP180C4General purpose and high chemical concentrations HUMICAP180R AChemical purge HUMICAP180RC C18Sensor protection in probe PPS plastic grid & stainless steel netting APPS plastic grid BSintered stainless steel filter CStainless steel grid D19Installation kit No kit A for probe Mounting flange G20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No A Service cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract)FISO 17025 Accredited calibration, 7 points (RH+T) (replaces standard factory calibration)GISO 17025 Accredited calibration, 7 points (RH+T) 3 years (calibration contract)HISO 17025 Accredited calibration, 7 points (RH+T) 5 years (calibration contract)J23Additional Maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.For high humidities1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT33070PRICE 1Transmitter type HMT33772Cable lenght 2 m cable S5 m cable T10 m cable U3Additional temperature No probe0probe4Parameters RH+T ARH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT B5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC , 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0... 100%RH)B B B10T(range : see below)C C CTd (-20...100°C)(-4...+212 °F)D D DTdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A, if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)B-40...+80°C(-40...+176°F)CNote:-40...+120°C(-40...+248°F)D- Choose option A, if no-40...+180°C(-40...+356°F)ET output is desired-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)H-20...+180°C(-4...+356°F)J0...+60°C(+32...+140°F)K0...+100°C(+32...+ 212°F)L0...+120°C(+32...248°F)M0...+180°C(+32...356°F)N-60...60 °C(-76...+140°F)PSpecial:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type General purpose HUMICAP1801Special sensor for high chemical concentrations HUMICAP180L22Chemical purge HUMICAP180C4General purpose and high chemical concentrations HUMICAP180R AChemical purge HUMICAP180RC C18Sensor protection PPS plastic grid & stainless steel netting APPS plastic grid BSintered stainless steel filter CStainless steel grid D19Installation kit No kit A for probe Duct installation kit CCable gland AGRO DSwagelok NPT 1/2"KSwagelok ISO 3/8"LSwagelok ISO 1/2"Y20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No A Service cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract)FISO 17025 Accredited calibration, 7 points (RH+T) (replaces standard factory calibration)GISO 17025 Accredited calibration, 7 points (RH+T) 3 years (calibration contract)HISO 17025 Accredited calibration, 7 points (RH+T) 5 years (calibration contract)J23Additional Maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.Example of order code with typical settings:HMT337 Humidity and Temperature Transmitter with warmed probeFor high humidities1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT3307PRICE 1Transmitter type HMT33772Cable lenght 2 m cable S(dew point probe) 5 m cable T10 m cable U3Additional temperature No probe0probe 2 m cable15 m cable210 m cable34Parameters Td+Tdf+x+pw(dew point probe only)CRH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT(with additional T probe)D5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC , 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0... 100%RH)B B B10T(range: see below)C C C(ref. to parameters Td (-20...100°C)(-4...+212 °F)D D Dselection above)Tdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A, if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)B-40...+80°C(-40...+176°F)CNOTE:-40...+120°C(-40...+248°F)D- Choose option A, if no-40...+180°C(-40...+356°F)ET output is desired-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)H-20...+180°C(-4...+356°F)J0...+60°C(+32...+140°F)K0...+100°C(+32...+ 212°F)L0...+120°C(+32...248°F)M0...+180°C(+32...356°F)N-60...60 °C(-76...+140°F)PSpecial:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type Composite sensor HUMICAP180C5Composite sensor with chemical purge HUMICAP180C6Composite sensor HUMICAP180RC DComposite sensor with chemical purge HUMICAP180RC EComposite sensor for fuel cell applications HUMICAP180RC F18Sensor protection PPS plastic grid & stainless steel netting ASintered stainless steel filter CStainless steel grid DMembrane SST filter for fuel cell applications F19Installation kit No kit A for probe Duct installation kit CSwagelok NPT 1/2"KSwagelok ISO 3/8"LDuct installation kit (RH + T probes)PSwagelok NPT 1/2" + Swagelok NPT 1/8" (RH+T)QSwagelok ISO 3/8" + Swagelok ISO 1/8" (RH+T)RSwagelok ISO 1/2"Y20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No A Service cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract)FISO 17025 Accredited calibration, 7 points (RH+T) (replaces standard factory calibration)GISO 17025 Accredited calibration, 7 points (RH+T) 3 years (calibration contract)HISO 17025 Accredited calibration, 7 points (RH+T) 5 years (calibration contract)J23Additional Maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.。

产品选型手册英文English:A product selection manual is a comprehensive guide that outlines the criteria, considerations, and steps involved in selecting the right products for a particular application or project. It typically includes detailed information about the different types of products available, their features, specifications, and performance metrics. The manual may also provide guidance on how to assess the specific needs and requirements of the project, such as budget constraints, technical specifications, compatibility with existing systems, and regulatory compliance. Furthermore, it may offer tools and methodologies for evaluating and comparing different product options, such as cost-benefit analysis, risk assessment, and vendor evaluation criteria. Additionally, the manual may contain case studies, best practices, and real-world examples to illustrate successful product selection strategies and outcomes. Overall, a product selection manual serves as a valuable resource for decision-makers, engineers, procurement professionals, and other stakeholders involved in the product selection process, helping them make informed choices that align with their project objectives and constraints.中文翻译：产品选型手册是一本全面指导，概述了选择特定应用或项目所需产品的标准、考虑因素和步骤。

geo5 英文计算书"GEO5" is a geotechnical engineering software developed by GEOSLOPE International Ltd. It is widely used in the analysis and design of geotechnical structures such as slopes, embankments, tunnels, and foundations.The GEO5 software provides a variety of calculation methods and tools for geotechnical engineering, including slope stability analysis, foundation settlement calculation, soil nail design, and finite element analysis. The software can perform complex calculations and simulations, helping engineers evaluate the safety and performance of geotechnical structures.To obtain a "GEO5" English calculation book, you can refer to the following methods:1. Official website: Visit the official website of GEO5 or the website of its developer to check if they provide downloadable calculation books or related documents. These resources may include detailed instructions, examples, and case studies using the GEO5 software.2. User forums and communities: Join GEO5-related user forums or communities where engineers and users share their experiences and knowledge. Here, you can search for posts or discussions related to GEO5 calculation books and ask for help or advice from other users.3. Training courses and workshops: Consider attending GEO5 training courses or workshops organized by authorized training providers or software vendors. These courses often include hands-on exercises and may provide calculation books or reference materials for better understanding and applying the software.4. Contact the software vendor: If you have purchased the GEO5 software, you can contact the software vendor's technical support team. They may be able to provide you with additional resources, including calculation books or guides, to help you better utilize the software's features and capabilities.It is important to note that the availability and accessibility of the GEO5English calculation book may vary depending on the software version, region, and licensing agreement. Therefore, it is recommended to check the official sources and contact the relevant parties for the most accurate and up-to-date information.。