油脂加工脱臭塔中的猛犸泵

固体酸催化大豆油脱臭馏出物甲酯化工艺研究马磊;杨天奎;夏萍;申万岭;闫晓松;谷克仁【期刊名称】《中国油脂》【年(卷),期】2015(040)003【摘要】采用溶胶-凝胶和浸渍法制备了SO42-/TiO2-SiO2固体酸催化剂,利用其对大豆油脱臭馏出物进行甲酯化.研究了TiO2-SiO2载体焙烧温度、浸渍用硫酸浓度、浸渍时间对催化剂活性的影响,以及催化剂用量、醇油比、反应温度和反应时间对酯化率的影响.得到了最佳反应条件为载体焙烧温度550℃,浸渍用硫酸浓度2.5 mol/L,浸渍时间12 h,催化剂用量5％(以大豆油脱臭馏出物质量计),醇油比1.5∶1(甲醇与大豆油脱臭馏出物体积质量比),反应温度65℃,反应时间4h.在最佳条件下,酯化率达到96.5％.【总页数】4页(P66-69)【作者】马磊;杨天奎;夏萍;申万岭;闫晓松;谷克仁【作者单位】河南工业大学化学化工学院,郑州450001;丰益(上海)生物技术研发中心有限公司,上海200137;丰益(上海)生物技术研发中心有限公司,上海200137;河南工业大学化学化工学院,郑州450001;河南工业大学化学化工学院,郑州450001;河南工业大学化学化工学院,郑州450001;河南工业大学化学化工学院,郑州450001【正文语种】中文【中图分类】TS229;TQ645.9【相关文献】1.大豆油脱臭馏出物连续酶法甲酯化工艺研究 [J], 唐年初;裘爱泳;姚专2.玉米油脱臭馏出物固体酸催化的甲酯化反应条件优化 [J], 杨铭铎;张美杨;曲彤旭;王媛;王耀晖3.大豆油脱臭馏出物甲酯化工艺研究 [J], 林文;丁朝中;陈乐清;史益强;王志祥4.大豆油脱臭馏出物酶法甲酯化工艺研究 [J], 甘欢华;刘钟栋;吴凯;李华;魏国华5.大豆油脱臭馏出物固体酸催化的甲酯化研究 [J], 徐世民;李娟;丁辉;吴英艳因版权原因，仅展示原文概要，查看原文内容请购买。

利用大豆油脱臭馏出物酶法合成植物甾醇酯林惠颖;辛嘉英;么婷婷;韩雪;陈书明【摘要】从大豆油脱臭馏出物中分别分离得到植物甾醇和脂肪酸,对植物甾醇的分离提取条件进行优化,确定甲醇-丙酮混合溶剂的比例为1∶2 (V/V),溶剂原料比为3∶1 (V/W),洗涤粗甾醇的溶剂为正己烷,分离出的脂肪酸主要为油酸、亚油酸等不饱和脂肪酸.通过物理吸附法固定CRL脂肪酶,考察不同载体固定脂肪酶的担载率和酶活力,确定大孔树脂HP20为最佳固定载体,酶活力最高且担载率最大.分离得到的植物甾醇和脂肪酸在固定化酶的催化作用下酯化合成植物甾醇酯,酯化率为45.11％,为日后各领域的应用提供了新的思路.【期刊名称】《食品工业科技》【年(卷),期】2018(039)011【总页数】5页(P62-66)【关键词】大豆油脱臭馏出物;植物甾醇;脂肪酸【作者】林惠颖;辛嘉英;么婷婷;韩雪;陈书明【作者单位】哈尔滨商业大学,食品科学与工程重点实验室,黑龙江哈尔滨150076;哈尔滨商业大学,食品科学与工程重点实验室,黑龙江哈尔滨150076;中国科学院,兰州化学物理研究所,羰基合成与选择氧化国家重点实验室,甘肃兰州730000;哈尔滨商业大学,食品科学与工程重点实验室,黑龙江哈尔滨150076;哈尔滨商业大学,食品科学与工程重点实验室,黑龙江哈尔滨150076;山西农业大学动物科技学院,山西太谷030801【正文语种】中文【中图分类】TS201.2植物甾醇,是植物体中一种类环状醇结构的生物活性物质,具有降低机体胆固醇水平、保护心血管[1],预防冠状动脉粥样硬化作用。

同时其较高的渗透性可保持皮肤水分,促进皮肤新陈代谢、抑制皮肤炎症等。

但其脂溶性和水溶性有限,反应活性较差,反应时需要大剂量进行,因而限制了其应用发展[2]。

与游离的植物甾醇相比,植物甾醇与脂肪酸酯化而成的植物甾醇酯具有较好的溶解性和兼容性[3],因而在医药、食品、化妆品等领域广泛应用。

Large Tank Truck Storage TankMobile Mechanical DevicesRefineryFuelIndustrialOil /HydraulicOilAviationFuelLubeHydr LargeStorageCentreMediumStorageCentrePipeStorage TankMedium Tank TruckMedium Tank TruckOil Station Storage CentreRefuelerFactoryStorageCentreFactoryStorageCentreRef FBO Filter CartFuels and lubeoils usually need long-distancetransportation and long-time storage beforere-entering mechanical devices, during whichprocess millions of contaminations will be brought toyour system and will have serious effect on theworking life and reliability of your facilities, engines,pumps and valves. Consequently, great economicloss will be caused: loss of working time,replacement cost for precise components,maintenance fee, etc.Parker portable filtration provides efficient filtering solution. FBO filter cart meets your needs for high-quality fuels, provides protection to engines - the heart of your mechanical devices and transportvehicles; MF series filter cart provides high-qualityhydraulic, gear and lube oils to better protect thecylinder, valves, gear pumps, improve the devicereliability, save maintenance fee, and enhanceeconomic efficiency. e Oil /raulic OilLarge Tank TruckStorage Tank Portable Tank Mobile Mechanical DevicesMobile Mechanical Devices RefuelerRefueler AircraftAircraftfuelerFBO Filter CartApplicationsProduct Overview Filtering new fluid before putting into serviceTransferring fluid from drums or storage tanks to system reservoirsPurifying fluid that is already in usePurifying fluid produced by small and medium sized refineryFor use with fluids such as diesel and aviation fuelModel FBO Filter CartFlow 10 gallons/min (37.9 l/m)Weight 60kgDimension 674mm×525mm×1135mmIndicator Delta P IndicatorBypass Valve Settings Inlet - 2.5 psid (0.2 bar)(Integral to Element) Outlet - 15 psid (1 bar)Maximum Operating Pressure 150 psid (10bar)Maximum Operating Temperature 240°F (115°C)Electrical Motor 220V/50Hz 0.75kw@1450rpm, IP55Fluid Type diesel, aviation fuelConstructions Cart frame :steel, Hoses: PVC, Wand Assembly:PVC, Seat: aluminum, Bowl Assembly: steelMicron Rating 1/5/10/25 micronElement Changeouts Split-typeA fluid quality test that Parker has conducted toward regular gas stations in various regions of China shows that contaminants of most new fluid surpass the standard requirements to construction mechanical devices and vehicle's engine fuel injection system. Parker's FBO filter cart, which applies dual-stage aviation technology, is a filter system integrating functions of filtering, monitoring and alarm. Racor's coalescing technology, global unique and patented, can synchronize the filtration of water and impurity. FBO filter cart can equip the on-line, monitoring and pre-alarm system to monitor the filtered fluid quality in real time.Specifications:Box 1 Box 2 Box 3 Box 4 Box 5 Box 6 Box 7 Box 810FBO 14 25M 10S B VP I 1Select the desired symbol (in the correct position) to construct a model code. Example: Replacement Element How to Order Please note the bolded options reflect standard options, and IcountPD is a high-level product newly launched by Parker – online particle detector. FBO two-stage filter can synchronize thefiltration of water and impurities, which makesthe working life longer. It solves the problemthat impurities and water might bring toengines and precision accessories.Drain Valve – Filter is fitted with lockablemanual drain valve to drain out filtered watereasily.Pre-Alarm System – Light on top of thesystem reminds user to make appropriateactions according to the signals.1. If the cleanliness of fluid has achieved theset point, the alarm light will be turned on,meaning that the fluid doesn’t need to becleaned anymore.2. If the separated water is out of the warninglevel, the sensor will display signal to meanthat the filter needs to drain water.IcountPD Online Particle Detector – optional.IcountPD is Parker’s patented product,which detects fluid quality in real time,monitors and displays the fluid cleanlinesslevel, to meet customers’ demand ofhigh-valued equipments (aircraft, laboratory,etc) protection.It is applicable in the new fluid detection forlarge scale group companies, such asconstruction sites, fleet, mining, etc. Model Symbol Description Box 1: Basic Assembly 10FBO 37.9LPM (maximum 35Cst)Box 2: Length 14 20.5 in（52.1cm） 10 16.5in（41.9cm）Box 3: Inlet Filter Element 25M Particle Removal, 25micron 25S Water Separator, 25 micron Box 4: Outlet Filter Element 01M Particle Removal, 1 micron 05M Particle Removal, 5 micron 10M Particle Removal, 10 micron 01S Water Separator, 1 micron 05S Water Separator, 5 micron 10S Water Separator, 10 micron Box 5: Seals B Nitrile (NBR)Box 6: Indicator VP Visual indicator (mounted on Outlet Filter only)Box 7: Power Supply I 220V 50Hz O 110V 50Hz / 110V 60Hz Box 8: Options 1 None PD With IcountPD WD With IcountPD and water level alarm Particle Removal Water Separator Media FBO10 FBO14 Media FBO10 FBO14 01M088003PS 088011PS 01S 088007PS 088015PS 05M088004PS 088012PS 05S 088008PS 088016PS 10M088005PS 088013PS 10S 088009PS 088017PS 25M 088006PS 088014PS 25S 088010PS 088018PSApplications:Product OverviewMF Series OverviewParker's 5/10MF filter cart is an ideal way to prefilter andtransfer fluids into reservoirs or to clean up existing systems.Most new fluids (right out of the drum) are unfit for use due tohigh initial contamination levels. Contamination, bothparticulate and water, may be added to a new fluid duringprocessing, mixing, storage and transportation. The Parkerportable filter cart uses two high capacity ModuFlow TM Plusfilters and Par-Gel TM element for long element life and bettersystem protection.Filtering new fluid before putting into serviceTransferring fluid from drums or storage tanks to systemreservoirsPurifying fluid that is already in useImproving existing system filtrationRemoving free water from a systemFor use with fluids such as hydraulic, gear and lube oilsMF Series Performance:Fluid cleanliness levels are a function of initialcontamination levels, contamination ingression rates,reservoir size and filter element efficiency. The chartbelow lists approximate time requirements to achievecertain cleanliness levels based on the assumptionsnoted.MF Series Element Performance：Reservoir Capacity (Gallons)Time Required (Hours)Projected Cleanliness Level (ISO) 500.5 20/18/15 501.0 17/15/12 502.5 16/14/111001.5 18/16/131002.5 17/15/121004.0 16/14/112002.5 19/17/142003.5 18/16/132005.0 17/15/12Media Code Filter Media Capacity (Grams)40W Woven Wire *40SA Synthetic *20Q MicroglassⅢ 14010Q MicroglassⅢ 13505Q MicroglassⅢ 13002QMicroglassⅢ 110Notes:The results in the chart are based on the followingassumption:1.Initial contamination level is 500,000 particles greaterthan 10 micrometers per 100 ml of fluid (10MFP cart).2.Inlet filter fitted with 40SA element; outlet with 20Qelement.3.System ingression rate equal to 1×106 particles greaterthan 10 micrometers entering the system per minute. Two filters instead of one, 2.5 times of standardproduct in lengthHeavy duty frame“Par-Gel TM ” water removalelements availableHeavy duty frameLightweight and portableTwo flow rates available: 18.9 liter/min and37.9 liter/min 3.6m suction pipe (hose and connections included)Pump protection and long element life Capable of getting fluid to a desired cleanliness level Removes free water from a system Rugged and durable Easy to move from place to place Enables use in low or high viscosity applications Unnecessary for additional hardwareElement cost saving and trouble-free service Extends fluid life and system performance Gets dirt and water out of system with one process Built to last for many hours of use One person operation Matched to your needsReady to use as received Features Advantages Benefits Efficiency%Efficiency 50.095.099.099.599.9100001000200100202048121620βSize (C)Model 5MFP/10MFP portable filter cartFlow 5 gallons/min - 10 gallons/min (18.9 l/m – 37.9 l/m)Weight 110 lbs. (45.4 kg)Dimension 648mm×503mm×1034mmMaximum Recommended 5MFP: 3000 SUS (627 cSt), 0.85 specific gravityFluid Viscosity 10MFP: 500 SUS (108 cSt), 0.85 specific gravityVisual Indicator (outlet filter) Visual differential type, 3-band(clean, change, bypass)Bypass Valve Settings Inlet – 3 psid (0.2bar)(Integral to Element) Outlet - 35psid (2.4bar)Material Synthetic, Stainless steel mesh, Microglass Ⅲ, Par-Gel TM Water Removal Operating Temperature Seal option (standard),NBR: -40°F to 150°F(-40°C to 66°C)Seal option (high temp option) FKM: -15°F to 200°F(-26°C to 93°C)Power Supply 5MFP: 110/220v, 60/50Hz, 8/4A10MFP: 110/220V, 60/50Hz, 10/5AElectrical Moter 5MFP: 0.75kw @ 1725rpm,10MFP: 0.75kw @ 3450rpm, thermal overload protectionTypical Fluid Cleanliness Level Requirements Many manufacturers of hydraulic components have established fluid cleanliness levels for their components. Using a portable filter cart can be a very effective way to reach and maintain these cleanliness levels. Component ISO Cleanliness Level Servo control valves 16/14/11Proportional valves 17/15/12Vane and gear pumps/motors 18/16/13Direction and pressure control valve 18/16/13Gear pumps/motors 19/17/14Flow control valves20/18/15Cylinders 20/18/15New fluid 20/18/15Par-Gel TM MediaWater Capacity Specifications:ModelFluid Viscosity Capacity 5MFP75 SUS 600ml200SUS 420ml 10MFP 75 SUS 500ml200SUS 300ml Notes:1.Par-Gel TM elements are designed to remove system's free water.2.Capacity is very dependent on flow rate andviscosity. Not recommended with fluids in excess of 500 SUS.Box 1 Box 2Box 3 Box 4 Box 5 Box 6 Box 7 Box 810MFP 2 40SA 10Q B VP I 1ModelSymbol Description Box 1: Basic Assembly 5MFP 18.9 l/m (fluid viscosity no larger than 627 cSt ) 10MFP 37.9 l/m (fluid viscosity no larger than 108 cSt)Box 2: Length2 Double Box 3: Inlet Filter Element 40SA Synthetic, 40 micron40W Stainless Steel Mesh, 40 micron nominal20Q Microglass Ⅲ, 20 micron Box 4: Outlet Filter Element 02Q Microglass Ⅲ, 2 micron05Q Microglass Ⅲ, 5 micron10Q Microglass Ⅲ, 10 micron20Q Microglass Ⅲ, 20 micronWR Par-Gel TM Water Removal Box 5: Seals B Nitrile (NBR) V High temperature option (FKM/EPDM)Box 6: Indicator VP Visual indicator (mounted on Outlet Filter only)Box 7: Bypass I 35PSID (2.4 bar) (outlet filter element)Box 8: Options 1None PD Icount PD Please note the bolded options reflect standard options with a reduced lead-time.Inlet Filter (3psid bypass)Outlet Filter (35psid bypass)MediaSeals 02QN/A 937397Q 05QN/A 937398Q 10QN/A 937399Q 20Q940971Q 937400Q 40SA940802 N/A 40W940803 N/A WRN/A 94073402QN/A 937405Q 05QN/A 937406Q 10QN/A 937407Q 20Q940974Q 937408Q 40SA940972 N/A 40W940973 N/A WR N/A 940736NBR FKM Replacement ElementsHow to OrderSelect the desired symbol (in the correct position) to construct a model code. Example:FC-2-10B 12/05W o r l d w i d e M a n u f a c t u r i n g L o c a t i o n s Parker Hannifin Motion & Control (Shanghai) Co., Ltd.280 Yunqiao Road, Jin Qiao Export Processing Zone, Shanghai, China Tel: (86) 21-28995000Fax: (86) 21-64459717Parker Hannifin Filtration Products and Systems(Shanghai) Co., Ltd.No. 2 Workshop, 786 Wangqiao Road, Jinqiao Processing Southern Zone, Shanghai, China Tel: (86) 21-58383030Fax: (86) 21-58382428Europe Engine FiltrationParker Hannifin Corporation Filte Division EuropeShaw Cross Business Park Churwell ValeDewsbury, WF 127RD England /eurofilt North AmericaEngine Filtration Parker Hannifin Corporation Racor Division 3400 Finch Road P .O.Box 3208Modesto, CA /racor Parker Hannifin Corporation Racor Division P .O.Box 6030Holly Springs, MS /racor Parker Hannifin Corporation Racor Division 302 Parker Drive Beautort, SC /baltson Compressed Air Treatment Parker Hannifin Corporation Filtration and Separation Balston Operation 242 Neck Road Haverhill, MA /balston Parker Hannifin CorporationFiltration and Separation Finite Filter Operation500 Glaspie StreetP .O.Box 599Oxford, MI 48371-5132/finitefilter Parker Hannifin Corporation Airtek Division4087 Walden AvenueLancaster, NY 14086 Hydraulic Filtration Parker Hannifin Corporation Hydraulic Filter Division 16810 Fulton County Road #2Metamora, OH /hydraulicfilterProcess FiltrationParker Hannifin Corporation Process Advanced Filtration 2340 Eastman AvenueOxnard, CA 93030/processfiltration Compressed Air Treatment Parker Hannifin Corporation domnick hunter industrial operations Dukesway, Team Valley Trading Estate Gateshead, Tyne & Wear England NE 11 OPZ Parker Hannifin Corporation Parker Hiross S.p.A Strada Zona Industriale, 435020, S. Angelo Piove(PD), Italy Parker Hannifin Corporation ZANDER Aufbereitungstechnik GmbH Stammhaus Essen/Headquarter Germany, Essen Im Teelbruch 11845219 Essenwww.zander.de Hydraulic Filtration Parker Hannifin Corporation Hydraulic Filtration Division Europe Stieltjesweg 8, 6827 BV Amhem P .O.Box 5008 6802 EA, Amhen Amhem, Holland /eurofilt Parker Hannifin Corporation Finn Filter OperationSalmentie 260FI-31700 Urjala as Finland /fiParker Hannifin Corporation CMC OperationBrunel WayThetford, Norfolk IP 24 1HP England /cmc Process Filtration Parker Hannifin Corporation domnick hunter process division Durham Road, Birtley Co. Durham, DH3 2SF England Asia Pacific Parker Hannifin Corporation Shanghai Co.Ltd.280 YunQiao Road JinQiao Export Processing Zone Shanghai 101206 China /china Parker Hannifin CorporationSingapore Pte Ltd.Lot 558A, Jalan Subang 3Off Persiaran SubangSungal Penaga Industrial Park 47610 Subang JayaSelangor Darul Ehsan, Malaysia /malaysia Parker Hannifin Corporation Thailand Co.Ltd.1023 3rd Floor. TPS Building Pattanakam RoadSuanluang, Bangkod 10250 Thailand /thailand Parker Hannifin Corporation Korea Ltd.777 Jung-RiDongtan-Myeon, Hwaseong-City Kyunggi-Do, 445-813 Korea /korea Latin America Parker Hannifin Corporation Comercio Ltda. Filtration Division Estrada Municipal Joel de Paula, 900Eugenio de Melo, Sao Jose dos Campos CEP 12225-390 SP Brazil /br。

2011届本科生毕业设计（论文）课题名称250全气动高压注油机及其油脂泵的设计专业机械设计制造及其自动化专业方向机电一体化班级07102112A1学号0710211217学生姓名陈业飞指导教师杨征瑞教研室机械电子上海应用技术学院机械与自动化工程学院250全气动高压注油机及其油脂泵的设计摘要:注油机主要运用于隧道、矿山、冶金，起重运输类的轴承及其他摩擦部位的润滑油加注。

目前大多数注油机的主要特点是手动或电动控制，效率均不高，且手动注油机劳动强度大，使用有局限性，出油压力不高。

国内对全气动高压注油机的研究较少，大多需要国外进口，价格昂贵。

本毕业设计的题目是气动注油机及控制系统的设计。

是为满足上海隧道工程的需要，为隧道工程机械润滑而设计的注油机。

设计正文气动注油机部分为总体方案选择、油脂泵的设计及控制实现方案、驱动气缸的设计三大部分注油机的设计在前期已经基本研究成功，已经投入生产。

但是，原来的注油机使用的是电控制，在隧道这种比较潮湿的环境中容易发生机器的故障及工作人员的人身安全问题。

所以，在原来的设计上加以改进，运用气动传动的优点，提高机器的适应性和可靠性。

气动注油机因以空气作为动力源，较易取得，用后的空气可直接排入大气中，处理方便，与液压相比不必设置回收油的油箱与管道，污染少，较能体现现在的环保概念。

有因空气的黏度很少，其损失也很小，所以便于集中供气，实远距离传送，这对于像隧道工程这样的地下操作是很方便的。

气压传动的环境适应性好，特别在易燃、易爆、多尘埃、强磁、辐射、振动严重的恶劣工作环境中，比如这次的隧道工程。

而且考虑到这次课题的设计要求，注油机的排量是：往复一次连续排油180ml，行程为120mm，注油压力为42 MPa，其注油量较高。

由于干油黏度很高，不易吸压，所以其工作频率不能很高，故综合考虑这些因素，本次设计的总体方案采用气动控制。

关键词：全气动注油机，高压，连续且流、排量可调The pneumatic high-pressure note oil 250mm design of themachineGeneral Information Design:Oiling machine is mainly used in tunnel, mining, metallurgy, materials handling classes and other friction bearing parts of the oil filling.Most current note oil machine main characteristic is a manual or electric control, efficiency are not high, and the manual labor intensity note oil machine, using has limitations, the oil pressure is not high. To the pneumatic high-pressure injection domestic oil feeder research less, mostly need foreign imports, the price is high.The graduation project is the subject of air oiling machine and control system design. Shanghai Tunnel Engineering is to meet the needs of lubrication for the tunnel project designed oiling machine.Design text pneumatic note oil machine parts for overall plan selection, grease pump design and control implementation scheme, driving cylinder design three sections.Pneumatic note oil machine for air as power supply, easily obtained, with the air after can be directly into the atmosphere, compared with convenient, handling of hydraulic oil tank not setting recovery less contamination with pipe, can reflect now, with the environmental protection concept. The viscosity for air, the loss is rarely facilitates concentration was small, so the supply, real long distance transmission, this for like tunnel project such an underground operation is very convenient. Pneumatic transmission good adaptability to the environment, especially in inflammable, explosive, dusty, strong magnetic, radiation, vibration serious odiously working environment, such as the tunnel project. And considering the topic design requirements, note oil machine emissions is: a continuous 180ml, reciprocating 120mm trip for the soot, note the oil pressure for 42 MPa, its note oil amount is higher. Because oil viscosity is very high, do not easy absorption of pressure, so its working frequency, it can high considering these factors, the design scheme of adopt pneumatic control.Keywords: all the pneumatic note oil machine, high pressure, flow, displacement is adjustable目录1 绪论 (1)1.1 研究目的及其意义 (1)1.2 注油机的分类 (1)1.3 发展趋势 (2)1.4 注油机的介绍 (2)1.4.1 手动液压注油机 (2)1.4.2 电动黄油注油机 (3)1.4.3 液压润滑脂注油机 (5)1.4.4 矿车轮注油机 (6)1.4.5 气动干油泵注油机 (9)1.5 总体分析 (13)2 油脂泵的设计 (15)2.1 总体方案的确定 (15)2.2 活塞杆的设计计算 (17)2.3 油脂泵缸筒壁厚的设计 (20)2.4 活塞的设计计算 (21)2.5 缸盖的连接螺栓的设计 (22)2.6 密封的设计 (23)2.7 增压盘的设计 (24)2.8 定压安全阀的设计 (25)3 气动控制系统的设计 (25)3.1 方案的比较及分析 (25)3.2 控制系统的方案确定 (27)4 驱动气缸的设计 (28)4.1 缸筒壁厚的设计 (28)4.2 活塞杆的设计 (29)4.2.1 活塞杆的初步选择 (30)4.2.2 活塞杆计算 (30)4.2.3 活塞杆强度校核 (30)4.3 耗气量的计算 (31)4.4 气缸进排气口直径的计算 (32)4.5 缸筒与缸盖的连接设计 (33)4.6 密封的设计 (33)5 升降气缸的设计 (36)5.1 缸筒内径的设计 (36)5.2 缸筒壁厚的设计 (38)5.3 活塞杆的设计 (39)5.3.1 初选活塞杆规格 (40)5.3.2 计算L/D (40)5.3.3 稳定性校核 (40)5.3.4 计算细长杆比 (40)5.3.5 确定系数m (41)5.3.6 校核活塞杆 (42)5.4 耗气量的计算 (42)5.5 气缸进排气口直径的计算 (43)5.6 密封的设计 (44)6 注油机总体设计 (48)7 设计小结 (50)8 特别致谢 (51)9 参考资料 (52)1 绪论1.1 研究目的及其意义注油机目前主要用于重型，矿山机械行业。

山茶油的超临界CO2逆流萃取脱酸脱臭研究雷华平;叶掌文;李昔卫;葛发欢;史庆龙【期刊名称】《中国油脂》【年(卷),期】2015(040)010【摘要】研究新的山茶油脱酸脱臭方法.采用超临界CO2逆流萃取对山茶毛油进行脱酸脱臭处理.结果显示,最佳的脱酸脱臭工艺条件为:进料位置为萃取柱Ⅳ段底部,萃取压力18.5 MPa,萃取柱Ⅰ、Ⅱ、Ⅲ、Ⅳ段温度分别为35、50、65、80℃,CO2流速15 L/h,分离釜压力5 MPa,分离釜温度40℃.通过1次逆流萃取,山茶油的酸值降低28.96％,臭味显著降低.山茶油的超临界CO2逆流萃取脱酸脱臭效果显著,工艺简单,并能保护其活性成分不被破坏,保持山茶油的天然品质.【总页数】4页(P86-89)【作者】雷华平;叶掌文;李昔卫;葛发欢;史庆龙【作者单位】湘南学院化学与生命科学系,湖南郴州423000;湘南学院化学与生命科学系,湖南郴州423000;郴州邦尔泰苏仙油脂有限公司,湖南郴州423000;中山大学药学院,广州510275;中山大学药学院,广州510275【正文语种】中文【中图分类】TS224.6;TQ644.4【相关文献】1.尿素包合和超临界CO2萃取相结合分离豆油脱臭馏出物中α-VE的试验研究 [J], 辛志宏;马海乐;吴守一;李国文;樊明涛2.超临界CO2萃取脱臭馏出物中VE及VE回添于大豆油中的研究 [J], 梁宝生;任悦;刘欣;王文华;刘滨城;于殿宇3.超临界CO2萃取豆油脱臭馏出物中VE的研究 [J], 王冰;李次力;缪铭;郦明浩4.超临界CO2和植物油脱臭馏出物相平衡研究 [J], 金君素;李群生;张泽廷;于恩平5.新疆棉籽油脱臭馏出物中甾醇的超临界CO2萃取工艺研究 [J], 史学伟;程卫东;肖婧因版权原因，仅展示原文概要，查看原文内容请购买。

大豆油脱臭工艺的流程模拟及回归建模分析
张栋;黄一珍
【期刊名称】《中国油脂》
【年(卷),期】2017(042)001
【摘要】利用计算机模拟技术建立大豆油脱臭工艺的流程模拟模型;以脱臭操作压力、脱臭进料温度、汽提蒸汽量为操作变量,按照中心组合设计原理制定实验方案,并利用流程模拟模型完成所有实验.根据实验结果建立大豆油脱臭工艺的油脂损失率和脱臭油中植物甾醇保留率的数学回归模型.该数学模型达到较高的拟合程度和准确性.可为计算机模拟技术和数学建模技术在油脂工艺优化领域的应用提供参考.【总页数】4页(P15-18)
【作者】张栋;黄一珍
【作者单位】中粮营养健康研究院加工应用技术中心,北京102209;中粮营养健康研究院品牌食品研发中心,北京102209
【正文语种】中文
【中图分类】TS224.6;TQ644.4
【相关文献】
1.基于工艺流程的纸机干燥部建模与模拟 [J], 孔令波;刘焕彬;李继庚;尹勇军
2.后处理Purex流程洗锝工艺的计算机模拟Ⅰ.计算机模拟及工艺参数分析 [J], 陈延鑫;何辉;张春龙;常利;李瑞雪;唐洪彬;于婷
3.霍尼韦尔增强UNISIM设计，为创建工厂流程模拟提供更大灵活性——流程建模软件将包含燃烧分析器和模型移植特性，与非霍尼韦尔模拟软件共享案倒 [J],
无
4.氯乙烯工艺流程模拟软件的开发Ⅱ.模拟与分析 [J], 郑世清;胡仰栋
5.基于流程模拟的油气回收工艺技术风险分析 [J], 王劲;韩续增;刘庆龙;尹法波;白明琪;张洪玉
因版权原因，仅展示原文概要，查看原文内容请购买。

脱臭工段多级真空喷射系统常见问题诊断与性能检测方法倪立华;周大同;陈瑶
【期刊名称】《中国油脂》
【年(卷),期】2018(043)011
【摘要】以脱臭工段使用的德国科尔庭多级真空喷射系统为例,对其可能出现的故障和性能降低情况进行了介绍,分析了原因,并阐述了故障诊断顺序、诊断方法以及真空系统常用的性能检测方法,以期为生产实际提供参考.
【总页数】5页(P151-155)
【作者】倪立华;周大同;陈瑶
【作者单位】无锡中粮工程科技有限公司,江苏无锡214035;无锡中粮工程科技有限公司,江苏无锡214035;无锡中粮工程科技有限公司,江苏无锡214035
【正文语种】中文
【中图分类】TS224.6;TQ643
【相关文献】
1.精炼脱臭中冷冻水真空系统和乙二醇型"干冰"冷凝真空系统的技术经济分析 [J], 孙乐;赵宇;李晓龙;白宏伟
2.降低脱臭工段蒸汽消耗的方法 [J], 周斌
3.多级真空发生器的抽气性能研究 [J], 李昊军;滕燕
4.性能良好的气动真空泵——多级气动真空泵是一种节能的输送设备 [J], Thomas Ramme;
5.影响高温高真空下的间歇脱臭效果和脱臭油脂质量的主要因素及其对策 [J], 罗树林[1]
因版权原因，仅展示原文概要，查看原文内容请购买。

浓缩循环罐的修复
路永强;范国才
【期刊名称】《中国设备管理》
【年(卷),期】2000(000)008
【总页数】1页(P26)
【作者】路永强;范国才
【作者单位】不详;不详
【正文语种】中文
【中图分类】TQ460.5
【相关文献】
1.铁液罐罐臂耳轴的修复 [J], 倪振航
2.改造真空浓缩罐提高单罐结晶率 [J], 吴明鑫
3.外循环浓缩装置在大规模水相蒸发浓缩中的应用 [J], 戴连科;胡重浩;许重阳;尹明星
4.单罐多功能提取浓缩药渣烘干机浅谈（单罐四合一） [J], 孙汉祥; 曹泉利; 王少波
5.循环系统锥形罐不淘罐技术简析 [J], 张增年; 李韬
因版权原因，仅展示原文概要，查看原文内容请购买。