GE-UNIK5000压力传感器说明书

液氮空化非稳态脱落过程可视化实验研究朱佳凯;王舜浩;余柳;邱利民;张小斌【摘要】搭建了一套液氮非稳态空化可视化实验装置,成功测量得到空化区前后的压力、温度和液体速度;使用高速摄像仪拍摄不同空化数下液氮在文氏管内的空化过程,图像处理得到空化区长度及脱落频率,并基于B因子理论推导得到低温空化体积分数经验计算公式.随着空化数的减小,空化区周期性脱落频率变小,空化区长度、最大温降和气相含量变大.基于空化区长度计算得到液氮空化的斯特劳哈数(St)平均值为0.378,其大于传统水空化的0.2-0.3区间.经分析,液氮较大的韦伯数和气液密度比使得空化区更易于断裂成小空化云团,从而更易于从壁面上脱落,这也和实验现象吻合.%An experimental device was built to visualize unsteady cavitation in liquid nitrogen,the inlet and outlet pressure and temperature of liquid nitrogen were successfully obtained.The shedding processes of liquid nitrogen cavitation in venturi tube were captured by the high-speed camera,the cavity length and cavitation shedding frequency were obtained through imaging processes.A semi-empirical correlation for vapor volume fraction was developed based on B factor theory for cryogenic cavitation.As cavitation number decreases,cavity shedding frequency decreases,but cavity length,maximum temperature depression and vapor content increase.The average Strouhal number(St) based on the cavity length is 0.378,which is larger than the traditional value between 0.2 and 0.3 in traditional water cavitation.By analysis,bigger Weber number and vapor/liquid density ratio of liquid nitrogen make the cavitation zone easyto break into small cavitation clouds,which is consistent with the experimental phenomenon.【期刊名称】《低温工程》【年(卷),期】2018(000)002【总页数】7页(P1-6,16)【关键词】液氮空化;非稳态;可视化;文氏管;热效应【作者】朱佳凯;王舜浩;余柳;邱利民;张小斌【作者单位】浙江大学制冷与低温研究所杭州 310027;浙江省制冷与低温技术重点实验室杭州 310027;浙江大学制冷与低温研究所杭州 310027;浙江省制冷与低温技术重点实验室杭州 310027;浙江大学制冷与低温研究所杭州 310027;浙江省制冷与低温技术重点实验室杭州 310027;浙江大学制冷与低温研究所杭州310027;浙江省制冷与低温技术重点实验室杭州 310027;浙江大学制冷与低温研究所杭州 310027;浙江省制冷与低温技术重点实验室杭州 310027【正文语种】中文【中图分类】TB6631 引言空化是指液体流动过程中由于静压降低到饱和蒸气压附近而汽化的现象。

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XXX学院测压仪器设计说明书系别：XXX班级:XXXXXXXX姓名：XX学号：XXX。

1 引言随着传感器技术的发展，功能集成化和结构小型化或一体化则成为传感器的主要发展趋势之一。

压力开关传感器的研制就是将功能单一的机械式压力开关与压力传感器结构小型化、功能集成化，使二者在同一个压力腔内能够同时提供开关信号和连续电信号。

该压力开关传感器研制要突破一体化结构、小型传感器设计及机械压力开关等关键技术难点，解决涉及多门学科相互交叉的综合技术。

2 结构设计为了实现机械压力开关与传感器一体化结构的要求，二者必须位于同一压力腔体中。

如果没有体积尺寸和重量的限制，传感器与压力开关只需平行排列就可以。

但在较小结构空间内，我们拟将传感器与压力开关的感压膜片面对面安装在同一压力腔内，共用同一个压力接口与信号接插件。

能够同步感受外部传递的压力，并同时提供阶越信号与连续电信号。

该结构外壳为不锈钢材料，整体设计采用固体硬连接，利用氩弧焊、电阻焊和电子束等多种体连接方法实现传感器结构内无可动部件，强化传感器抗压、抗振、抗冲击特性。

图1，2为传感器一体化结构图。

传感器输出的毫伏信号需要经过放大电路转化成0～5 V标准信号输出。

根据使用要求将电路板设计安装在电路盒体内，电路盒的结构设计如图3所示。

外壳采用金属铝材料，表面进行阳极氧化，电路板经过固定安装后，电路盒四周采用密封处理，输出信号通过电连接器与外部仪表连接。

2.1 小型压力传感器设计压力传感器的工作原理选择扩散硅压阻工作机理。

将构成惠斯登电桥的四个扩散硅电阻对称设计在弹性体的正负应变区上，扩散硅电阻随被测介质的压力增加而增加或减小，造成惠斯登电桥的不平衡电压与被测压力成线性变化。

图4为传感器惠斯登电桥。

基于一体化结构设计压力传感器的敏感器件和芯体采用微小型化，与压力开关形成上下配套结构，形成一体化设计。

图5为传感器小型体芯结构。

传感器设计利用自主开发的传感器计算机辅助设计应用技术进行，使用ANSYS有限元分析平台软件和CV 机械设计软件及数据库的数据资料，建立合理适用的传感器数学模型。

手柄操作说明书一、任意状态下点击“F4”表示退出程序“T”会出现“Are you sure you want to leave?”你确信你要退出吗？如果要退出：选择“Y”或者“YES”会出现“Do you want to keep the receiver ON?”你想保持接收机在开机状态吗？选择“Y”或“N”。

不退出：选择“N”或者“NO、DEL”二、任意状态点击“F1”是进入帮助三、当最上一栏有1/3或1/2时，可以用”PgDn”、“PgUp”进行翻页四、当菜单中有“右箭头”时，可以用“右箭头”查看。

五、图标1 operation内容说明：1、stake out 放样2、logging采集点3、reference point输入参考点4、trajecto轨迹测量5、logging with offset坐标几何计算6、profile断面测量stake out如果没有设计点会显示：There is no point in the file.文件中没有设计点供放样？“F1”的帮助里：yes Guidance 导航O stake out with offset坐标几何计算放样S search 搜索、查找V view 查看点的坐标C creat a point 新创造一个点L creat a line 新创造一条线D distance 计算距离N next point 下一个点P configure next point定义下一个点G Geocode display显示地理码（代码）M view 2D查看平面视图Esc abadon 放弃F4 quit 退出Logging在Name中请输入采集点的名字Geocode(1)、(2)等等是输入地理码（代码）的位置Average 采集点的平均定位时间（一般1秒就可以了）Antenna 天线高Comment 备注栏“F1”帮助里F3 logging 采集记录# uncertainty display 显示精度限制阀值Esc Abandon 放弃F4 quit退出Refrence pointF1帮助中yes Guidance 导航O stake out with offset坐标几何计算放样S search 搜索、查找V view 查看点的坐标C creat a point 新创造一个点L creat a line 新创造一条线D distance 计算距离N next point 下一个点P configure next point定义下一个点G Geocode display显示地理码（代码）M view 2D查看平面视图Esc abadon 放弃F4 quit 退出Trajecto Time 按时间采集轨迹Distance 按距离采集轨迹如选择Time在Name中请输入采集点的名字Geocode(1)、(2)等等是输入地理码（代码）的位置Time 时间Antenna 天线高Comment 备注栏F 1帮助里：F3 start 开始轨迹测量# uncertainty display 显示精度限制阀值Esc Abandon 放弃F4 quit退出如选择Distance在Name中请输入采集点的名字Geocode(1)、(2)等等是输入地理码（代码）的位置Distance 距离Antenna 天线高Comment 备注栏F 1帮助里：F3 start 开始轨迹测量# uncertainty display 显示精度限制阀值Esc Abandon 放弃F4 quit退出Logging with offsetLinear 直线延长法Lateral 前方交会法Intersection 两直线相交法F1帮助里Yes Accept 接受V view 查看Del Delete 删除Clr Delete All 删除所有Esc Abandon 放弃F4 quit退出Profile 断面测量Yes Guidance 导航I Insert a point 插入一点F Insert points 插入多个点Del Delete a point 删除点Clr Delete all point删除所有点S search 搜索查找V view 查看点坐标N next point下一个点P configure next point定义下一个点G Geocode display 显示地理码M View 2D查看平面视图Esc Abandon放弃F4 quit退出图标 2 UHF receiver1、configure2、positionconfigurel里：Number 1 站号（要求参考站和流动站一致）Frequency 414.55MHz 频率（要求参考站和流动站一致）Baud rate 4800波特率Station battery 12.0V 参考站电压Level 30dB电台信号强度（0----74）Age 1S 电台数据更新率（0、1、2基本正常，逐渐增大说明电台信号丢失）Position里：Number 1 站号Easting: 500000m 东坐标Northing: 3456000m 北坐标Altitude: 3m 大地高Distance: 1798m 距离参考站距离图标 3 Files1、choose a job 选择工作项目（包含坐标转换参数及参考点refrence point和设计点target及结果点result坐标）2、choose a file 选择一个工作文件3、result point结果点4、memory查看内存5、raw data原始数据采集6、notes记事本choose a job中的帮助yes select 选择箭头所指的工作项目V view 查看C creat a job创造一个新的工作项目Esc Abandon放弃F4 quit 退出choose a file中的帮助yes select 选择箭头所指的工作文件V view 查看C creat a new file创造一个新的工作文件Esc Abandon放弃F4 quit 退出Result point 查看采集的结果点和轨迹帮助类似reference point 和target point的帮助memory 查看容量PCMICIA PC卡的容量情况Total memory 8Mb 共计Free memory 99% 7785Kb 剩余容量PALM TOP 手柄的容量情况Total memory 1912Kb 共计Free memory 44% 848Kb 剩余容量F1 帮助F List of files 文件列表Esc Abandon 放弃F 4 quit 退出RAW data 静态原始记录Status stopped 状态：停止stopped、记录recording File 11210846 文件名Period 10S 采样间隔10 S一次Antenna 3m 天线高帮助里：R Start recording 开始记录S stop recording 停止记录Esc Abandon 放弃F4 quit 退出Notes 记事本帮助里：yes Edit a note 编辑记事本C Create a note新建记事本Del Delete a note删除记事本Clr Delete all notes删除所有记事本T Transfer notes传送记事本Esc Abandon放弃F4 quit 退出图标4 SV1、oprating mode 工作模式2、position 流动站位置3、satellites 卫星状况4、sv deselection 删除卫星oprating mode 工作模式：operating mode OTF /STATIC/ZFIXED/POINT/EDGPS/GPS OTF:（on the fly）在移动中初始化（解算整周模糊度）STATIC：静态初始化（保持GPS天线不动）ZFIXED：固定Z的初始化POINT：按给定的已知点初始化EDGPS：增强型DGPSGPS：单点定位Initialization time 03:04 初始化时间Number of solution 3 解算出模糊度的个数Age of the last 00:30最后一个解出来后距现在的时间PDOP 1.8 空间精度因子Easting 500000m东坐标Northing 3456000m北坐标Altitude 4m大地高Antenna 3 m天线高帮助中F Get a point from file 从文件中得到点C Get current point 取当前点Yes Accept 重新初始化Esc Abandon 放弃F4 quit退出PositionNumber of sv’s 8 卫星数Mode LRK 状态Geodesy shcj/shcj 地理坐标系统Easting 500000m 东坐标Northing 3456000m 北坐标Altitude 3m 大地高Antenna 3m 天线高Uncertainty 容许范围Horizontal 平面精度V ertical 高程精度Max Horizontal 最大容许平面精度Max Vertical 最大容许高程精度Satellites卫星状况Sv El Azi1 34 3553 66 454 33 156卫星号高度角方位角信噪比SV Deselection 删除卫星帮助：Del select/unselect Sv 选择或不选择卫星Yes Accept selection 接受选择Esc Abandon 放弃F4 quit退出图标5 Geodesy 坐标系统1、Datum 7参数2、Projection 投影参数3、Change to WGS84 切换到WGS84大地坐标4、Local grid平面转换参数5、Height correction高程改正Datum:Name : shcj 7参数文件名A 6378245.000M 椭球长半轴1/F 298.3000000000 扁率的倒数S 0.99999814 比例因子Dx -170.076 X方向平移Dy -154.924 Y方向平移Dz -97.308 Z方向平移A x 1.666408”饶X轴旋转角度Ay 0.072624 饶Y轴旋转角度Az -8.648183 饶Z轴旋转角度ProjectionUtm shcj 投影名字Lori 0’00’00.0000’N 中央纬度Gori 121’28’01.7702’E 中央经度Eori 0.000m 东方向加常数Nori -3457140.000m 北方向加常数Ko 1.00000000000 投影比例Change to WGS84会出现：”The current geodesy will be lostThe current job will be lostAre you sure?”当前的坐标参数和工作文件会失去，切换到WGS84大地经纬度，你确定吗？Local grid平面转换参数Datum shcj 7参数名Projection shcj 投影名Grid YES 使用平面转换NO 不使用Height correction高程改Ellipsoid shcj 椭球名STANAG NOGeoid no 不使用高程模型YES 使用高程改正模型Correction yes 使用高程改正Antenna 3m 天线高图标6 tools 工具1、Area 面积计算2、Time 时间3、Geocode 地理码4、Configuration参数5、Unit单位6、Release版本Area里：F1帮助：Yes Compute计算I Insert a point插入点F Insert points插入多个点Del Delete a point删除点Clr Delete all points删除所有点S Search搜索V View查看N Next point下一个点P Configure next point配置下一个点G Geocode display显示地理码M View 2D查看平面视图Esc Abandon放弃F4 Quit退出Time里：Offset时区中国是东八区+08：00Local time当地时间Date日期UTC time格林尼治时间F1 帮助里：O Set offset设置时区T Set time设置时间D Set date设置日期Esc Abandon放弃F4 Quit退出Geocode里：F1帮助中：A Add a new geocode增加新的地理码M Modify a geocode编辑地理码Del Delete a geocote删除地理码Esc Abandon放弃F4 Quit退出Configuration里：UncertaintiesHorizontal 0.25m 平面经度范围Vertical 0.35m 高程精度范围Display Horizontal:显示精度平面Acceptance circle 0.50m 接受圈Battery alarm 11.5V电池警告电压Unit里：Length Meters: 长度单位米Angle Degrees: 角度单位度Release里：25/10/99 TOV20204TD00 RUHFV10300 RUHF表示接收电台模块10300是版本号EUHF表示参考站的电台发射模块CM08 CMPYV0020513 CM表示GPS接收模块，后边是版本号CM08 CMBLV0010109UC01 UCBNV30304 UC表示主板模块，后边是版本号UC01 UCBLV100000UC01 UCBSV200000。

压力传感器使用知识传感器在使用过程中，正确的使用方法对提高传感器的可靠性和稳定性有着密切的关系。

要作到正确的使用传感器，就必须在使用时对传感器的以下方面有一个正确的认识。

1封装压力传感器顾名思义是用作压力的测量，对压力有很高的灵敏度，不同的封装形式会对传感器产生不同的应力影响，大小不同的应力会造成传感器的不同的漂移特性。

传感器从结构上来讲重要分以下三种：隔离膜压力传感器、TO封装压力传感器、塑封型压力传感器元件。

1.1 隔离膜压力传感器SENSYM/ICT19/13系列隔离膜充油芯体是世界上使用最为广泛的一种OEM压力传感器，它的量程范围宽（5KPa~100MPa）、测量介质种类多。

极大的方便了用户。

作为OEM产品，其多样的再封装性极大的方便了客户制造各种的压力接口。

怎么样再封装是一种合理的封装形式，在这里我们对以下三种封装形式进行分析。

端口平面密封的封装形式（见图1）这种密封方式是在传感器前端膜片焊接环的端面放置橡胶O型圈，利用后部的锁紧环将传感器紧压在O型圈上而起到密封的作用。

这种封装形式局限性很大，由于锁紧环施加在传感器上的压力很强，使其收到较大的应力，而将应力完全的释放掉，工艺过程是很烦琐的，所以这种再封装形式是不推荐客户使用的，如果一定要用，则尽量在量程大于300psi的范围内使用。

用这种封装形式来检验传感器的各项指标，一般都不会得到生产厂家认可。

1.1.1侧密封的封装形式（见图二）这种密封方式是在传感器侧面中部放置橡胶O型圈，利用O型圈在封装壳体内腔壁的形变而起到密封的作用。

这种封装形式优势很大，由于O型圈在封装壳体内腔壁的形变得到了极好的控制而使施加在传感器上的应力极小到可以忽略的程度，而传感器在内腔的轴向上又有微小的运动空间，是无应力施加在传感器上的。

因此这种安装方式又称为悬浮式封装形式，它的优点是保证芯体有微小的径向和轴向运动，以保证因装配而引起的机械应力不传递给芯体。

这种安装方式适用于全量程的隔离膜压力传感器。

系列壓力感測器操作手冊注意事項1. 安裝時離開高電壓及具有強高周波雜訊的地方防止干擾。

在以下情況會發生的場所避免使用本機：(a) 灰塵過多及有腐蝕性氣體； (b) 高溼度及高輻射； (c) 震動及衝擊。

2. 本機型僅適用於氣體壓力量測，且應避免使用於腐蝕性氣體，易燃性氣體或有毒氣體的量測。

產品部位名稱1. 壓力值顯示∕參數值內容顯示 6.設定功能鍵2. 設定值顯示∕設定項目顯示 7.向下調整鍵3. 壓力單位顯示 8.電源和輸出信號端子4. 第一/二組數位開關信號輸出指示燈 9.壓力輸入氣孔5. 向上調整鍵選購資訊電氣規格輸入電源電壓範圍12 ~ 24 VDC +/- 10% 無隔離消耗功率40 mA Max.壓力量測壓力型式非腐蝕性氣體，相對式氣壓量測 (gauge type)量測範圍DPB01: -100kPa ~ 100kPa; DPB10: -100kPa ~ 1,000kPa最大耐壓DPB01: 200kPa; DPB10: 1,500kPa量測精度 +/-3%全量程顯示設定顯示雙排LCD顯示，可顯示4位數量測值及3.5位數設定顯示。

顯示週期 100ms、250ms、500ms、1,000ms輸出輸出組數內建兩組NPN或PNP晶體數位輸出晶體輸出最大耐壓30V/100mA，導通殘餘電壓1.5V。

反應時間 2ms、4ms、10ms、30ms、50ms、100ms、250ms、500ms、1,000ms、5,000ms環境溫度操作：0°C ~ +50°C；存放：-20°C ~ +65°C操作環境溼度35% ~ 80% RH（無結露）安裝方式 外觀尺寸面板安裝：需選購配件DPA-PFKit角架安裝：需選購配件DPA-FMKit參數設定操作說明輸出模式設定1. 簡易模式：壓力大於(P + dP) OFF。

（見圖一：簡易模式輸出圖）在量測模式下，按鍵找到，按鍵設定P值。

警告感谢您购买了本公司的VICTOR5000电能质量分析仪，为了更好地使用本产品，请一定：——详细阅读本用户手册。

——严格遵守本手册所列出的安全规则及注意事项。

◆违规使用仪器可能导致触电、爆炸或火灾。

★任何情况下，使用本仪器应特别注意安全。

★注意仪器面板及背板的标贴文字及符号。

★使用、拆卸、维修本仪表，必须由有授权资格的人员操作。

★由于仪器原因，继续使用会带来危险时，应立即停止使用，并马上封存，由有授权资格的机构处理。

★仪表及手册上的“”危险标志，使用者必须依照指示进行安全操作。

★★当移除或更换电池或SD卡时，请确保断开测量导线、电流钳、电源适配器并关闭电源。

★电流钳必须与仪表对应连接，否则测试误差可能增大。

★如果电池或SD卡插槽缺失、被破坏或未正确安装，请勿使用仪器。

★任何与本仪器无关的系统安全问题，由该系统的建立、运营商负责。

★出于您的安全考虑，请仅使用随设备所附带的导线和配套附件(符合IEC61010-031(2002)标准)。

当低电压等级的传感器或附件连接至设备时，该低电压等级传感器或附件必须适用于该系统。

★使用前请经常检查测试导线、电流钳和附件处于最佳状况。

任一导线、电流钳或附件，如果绝缘受损(甚至只是部分受损)，都必须维修或报废。

★遵从环境状况。

(参阅15.3.1)★若环境需要，请使用个人安全保护设备。

★该仪器必须使用在对地交／直流电压不大于600V的第IV类装置设备(IEC61010-1标准)，或使用在电压不大于1000V的第Ⅲ类装置设备。

禁止在更高的电压网络或类型下使用。

★仅使用生产商所提供的电源适配器或电池组，它们具有特定安全等级。

★遵循附件或电流钳的安全级别限制，避免和未使用的终端连接。

★危险电压下某些电流钳不能从暴露的导体上安装或移除。

◆使用和连接步骤：★开启仪器。

★根据所需结果并参照网络类型设置仪器相关参数。

★连接电压测试导线和电流钳到仪器上。

★将地线和(或)中性线的电压测试导线连接到电网的地线和(或)中性线。

Features− SIL 2/3 Certified IEC 61508*− Graphic Display with Waveform Screen − Widest Selection of Wetted Materials − Radar Signal Travels Along the Waveguide –Eliminates False Echoes and Minimizes Signal Loss − No Moving Parts− Rigid, Flexible Cable & Coaxial Probes − All Digital Electronics− Loop Powered to 217ft Probe Length − Total and/or Interface Level Measurement−Field Replaceable / Upgradable Electronics ModuleMT5000 SeriesGuided wave radar level transmitterOptions− FOUNDATION fieldbus output − Glass viewing window − 316 Stainless Steel enclosure −Remote sensor* transmitters equipped with 4-20mA/HART module option onlyAccessories− External chambers − Stilling wells− JDF200 loop indicator−RI100 Repeat Indicator for 2 4-20mA Output SignalsHigh accuracylevel and interface detection for liquids, slurries and solids K -TEK Products1 see approval agency restrictionsSpecifications SensorMT5100 INTERFACE GUIDELINESIn order to properly detect the level of interface between two liquids using the MT5100, the following rules must be adhered to:1.One of the following probe and mounting configurations must be used:a.Single rigid rod or flexible cable mounted in a stilling well, external chamber, or existing displacer.*b.Coaxial probe mounted into tank, external chamber, or displacerc.Single rigid rod or flexible cable in open vessel with recommended installation conditions.*This is the preferred mounting configuration to reduce the chance of fouling.2.Emulsion layers will affect the detection of an interface level. An emulsion layer may negate an interfacelevel indication completely. The MT5100 will read an interface level in the presence of a 3 inch emulsion.Greater emulsion layers may be possible. Please consult factory.3.The minimum upper fluid thickness must be 4 inches when emulsion is present, and 3 inches with a cleaninterface. Closer measurement may be possible with calibration adjustment.4.The upper fluid dielectric constant must be greater than 1.4 and less than5.5.The interface level indication is a calculated value based partially upon the dielectric of the upper fluid. Theupper fluid dielectric must remain constant for consistency / accuracy in the interface level indication.6.The lower fluid dielectric constant must not be less than 15.7.If the application is a flooded condition (sensor completely submerged in process), it must remaincompletely flooded.8.In a non-flooded condition, the upper fluid must not be allowed to enter the upper unmeasurable zone. Theupper unmeasurable zone is typically located within the mounting nozzle of the vessel.9.If measuring interface in an external chamber, ensure that the fluid is allowed to equalize between thevessel and the chamber. Consult the factory or your local representative for assistance.10.R and RW remote coupler configurations are not recommended for interface applications unless the remotecoax is 5ft or less and the probe is a coaxial configuration or in a chamber or stilling well.If the required interface application does not fall within the above mentioned parameters, please consult the factory for an alternate technology, such as an LMT Series magnetostrictive transmitter or a KM26 magnetic level gauge.GUIDELINES FOR MEASURING with ULD MODEPROCESS CONNECTION / WAVEGUIDE COUPLERO -Ring Seals*Order CodeDescription Min. Temp Max. Temp VViton A (FKM) -15ºF -26ºC 400ºF 204ºC K Kalrez 4079 -40ºF -40ºC 400ºF 204ºC E EPDM -60ºF -50ºC 250ºF 125ºC AMarkez Z1319-14ºF -10ºC572ºF 300ºCPressure versus Temperature for C1 and C2 CouplersPressure versus Temperature for C1H and C2H CouplersPressure versus Temperature for C8 CouplersPressure versus Temperature for C9 Couplers 2Pressure / Temperature Curves 1*The information in this chart has been supplied by the o -ring manufacturers. Before permanent installation, test theequipment with the chemicals and under the specific conditions of your application.If the required o -ring material is not listed above, please consult the factory.1. Coupler temperatures are based on o -ring temperature ratings. Please refer to the o -ring chart above for further information.2. C9 coupler temperature rating is based on Markez Z1319 o -ring selection. The temperature is based on o -ring placement in side the coupler, thus allowing higher temperatures at the process connection.Cable weights for cable probesCentering disks for rod probes444L1L2Active Length6” minimum diameter surface90°L1L26” minimum diameter surface3”H Max Coupling 3Active Length90°HSL1L2Active Length6” minimum diameter surface for nozzles 3”or smaller90°41.71.7L2Act. LengthL1CENTERINGDISKL1L2Act. LengthCENTERINGDISK2” typical 90°HSL1L2ACTIVE LENGTH5” diameter minimum 90°L1L2Active LengthProbeIntegral Stilling Well1.711MT5100 Recommended Installation Pipe; Customer or K -TEK Supplied.ILL1L2ILL2L1ILL1L2Pipe; Customer or K -TEK Supplied. Refer-1) to specify /order external chamber available online at on the Displacer End of probe or top of weight should extend a minimum of (50mm) below lower process connection of chamber.ILL1L2 Open Vesselminimum diameter surfaceBase Model for MT5000, MT5100 and MT5200 TransmittersMT5000 Series Guide Wave Radar MT5.xxx xxxx xx x xx(x) Device TypeMT5000, Liquid Total Level Transmitter000MT5100, Total Level and Interface Level Transmitter100MT5200, Solids and Low Dielectric Liquid Total Level Transmitter200Coupler MaterialNone Y316/L Stainless Steel (Standard)S6*304/L Stainless Steel (Rigid Probe only)S4Hastelloy C-276H1Hastelloy B3 (Rigid Probes only)H3Monel M4Titanium (Rigid Probes only)T2Inconel 625IN2Special Z9Transmitter ConfigurationNone YLocal Transmitter (Standard)L*Local Transmitter with Window Cover (Standard)LW*Remote Mounted Electronics with Standard 5 ft Cable (Dielectric > 15)RRemote Mounted Electronics with Window Cover and Standard 5 ft Cable (Dielectric > 15)RWSpecial Z9 Transmitter HousingNone YDual Compartment Aluminum Housing (Standard)A* Dual Compartment 316 Stainless Steel Housing S Special Z Process Connection / Waveguide CouplerNone Y 0.75 in. NPT Process Connection Coupler Single / Coaxial Probe Teflon Insulator C1*0.75 in. NPT Process Connection Coupler Single / Coaxial Probe Teflon Insulator High Pressure C1H1.50 in. NPT Process Connection Coupler Single / Coaxial Probe Teflon Insulator C2*1.50 in. NPT Process Connection Coupler Single / Coaxial Probe Teflon Insulator High Pressure C2H2.50 in. NPT Process Connection Coupler Single / Coaxial Probe Teflon Insulator C3 1.50 in. NPT Process Connection HP/HT Coupler Single Probe/Coaxial Probe Borosilicate Glass Insulator C8 1.0 in. NPT Process Connection HP/HT Coupler Single Probe/Coaxial Probe Alumina Ceramic InsulatorC9 Custom Coupler, consult factory CZ * -Standard12Base ModelMT5000 Series Guide Wave Radar ordering information continuedMT5.xxx.xxxx.xx.x.xxx.x(xxx)xxx(xxxxxx) Process Seal TypeNone YV*Viton FKM A O-Ring Process Seal -15 °F (-26 °C) Min Temp to 400 °F (204 °C) Max Temp StandardAdditional Hermetic Glass Feed-Through with Viton FKM A O-Ring Process Seal SV1*Kalrez 4079 O-Ring Process Seal -40 °F (-40 °C) Min Temp to 400 °F (204 °C) Max Temp K*Additional Hermetic Glass Feed-Through with Kalrez 4079 O-Ring Process Seal SK1*EPDM O-Ring Process Seal -60 °F (-50 °C) Min Temp to 250 °F (125 °C) Max Temp EAdditional Hermetic Glass Feed-Through with EPDM O-Ring Process Seal SE1*Markez Z1319 O-Ring Process Seal -14 °F (-10 °C) Min Temp to 572 °F (300 °C) Max Temp A*Additional Hermetic Glass Feed-Through with Markez Z1319 O-Ring Process Seal SA1* Borosilicate process seal, C8 coupler only B*Additional Hermetic Glass Feed-Through with Borosilicate Process Seal, C8 coupler only SB1*Special Process Seal Z9Probe TypeNone YRod probesSingle Rigid Rod Probe, 0.25 in. (6 mm) Outer Diameter, 20 ft (6.1 m) Max Standard Length P01* Single Rigid Rod Probe, 0.50 in. (13 mm) Outer Diameter, 20 ft (6.10 m) Max Standard Length P02* Single Rigid Rod Probe 0.375 in. (9 mm) Outer Diameter, 20 ft (6.1 m) Max Standard Length P03*Simi-Rigid Rod Probe 0.125 in. (3 mm) Outer Diameter 50 ft (15.24 m) Max Standard Length Includes Weight P43 Cable probesSingle Flexible Cable Probe 0.1875 in. (5 mm) Outer Diameter, 200 ft (61 m) Max Standard Length P11* Single Flexible Cable Probe 0.25 in. (6 mm) Outer Diameter, 200 ft (61 m) Max Standard Length P12* Triangle Cable Probe 0.25 in. (6 mm) Outer Diameter, 100 ft (30.5 m) Max Standard Length P33 Single Flexible Cable Probe 0.31 in (8 mm) Outer Diameter, 200 ft (61 m) Max Standard Length P61 Coaxial probesCoaxial Probe 0.875 in. (22 mm) Outer Diameter 22 ft (6.7.5 m) Max Standard Length P51 Coaxial Probe 1.315 in. (34 mm) Outer Diameter 316SS only 22 ft (6.7.5 m) Max Standard Length P71 Coaxial Probe 0.1875 in. (5 mm) Outer Diameter 316SS only 22 ft (6.7.5 m) Max Standard Length P81 Coaxial Probe 1.00 in. (25 mm) Outer Diameter 22 ft (6.7.5m) Max Standard Length with compression fitting P912 Custom Probe, consult factory PZZ1. Hermetic seal required for E1 and E2 approvals2. Maximum process pressure of3.45 barg (50 psig)* - Standard13Base ModelMT5000 Series Guide Wave Radar ordering information continuedMT5.xxx.xxxx.xx.x.xx(x).x(xxx).xxxx xxxx xx Probe end attachmentNone YCentering weights (cable probes only)0.875 in. (22.2 mm) O.D., 4.0 in. (101.6 mm) Weight Height, approx. 0.7 lbs (301 g)W09*1.0 in. (25.4mm) O.D., 6.0 in. (152.4 mm) Weight Height, approx. 1.3 lbs (590 g)W10*1.25 in. (31.75 mm) O.D., 3.5 in. (88.9 mm) Weight Height, approx. 0.8 lbs (317 g)W13*1.625 in. (41.3mm) O.D.,2.0 in. (50.8 mm) Weight Height, approx. 1.1 lbs (499 g)W161.875 in. (47.6 mm) O.D.,2.0 in. (50.8 mm) Weight Height, approx. 1.5 lbs (680 g)W192.875 in. (73.3 mm) O.D., 1.0 in. (25.4 mm) Weight Height, approx. 1.8 lbs (816 g)W292.00 in. (50.8 mm) O.D., 6.0 in. (152.4 mm) Weight Height, approx. 2.2 lbs (998 g)WS61.5 in. (38.1 mm) O.D., 5.25 in. (133.35 mm) Weight Height, approx.2.2 lbs (998 g)W61Custom Centering Weight (consult factory)W99 Centering disks (rod probes only)1.50 in. (38.1 mm) O.D. approx 0.4375 in. (11 mm) Height 1.50 in. (38.1 mm) Min Stilling Well Size D152.0 in. (50.8 mm) O.D. approx 0.4375 in. (11 mm) Height 2.0 in. (50.8 mm) Min Stilling Well Size D202.3 in. (58.7 mm) O.D. approx 0.4375 in. (11 mm) Height 2.5 in. (63.5 mm) Min Stilling Well Size D232.8 in. (71.1 mm) O.D. approx 0.4375 in. (11 mm) Height3.0 in. (76.2 mm) Min Stilling Well Size D283.75 in. (95.3 mm) O.D. approx 0.4375 in. (11 mm) Height4.0 in. (101.6 mm) Min Stilling Well Size D383.75 in. (95.3 mm) O.D. approx 0.4375 in. (11 mm) Height4.0 in. (101.6 mm) Min Stilling Well Size D60Custom Centering Disk (consult factory)D99Eyelets (cable probes only)Eyelet SS6 for 0.1875 in. (5 mm) O.D. Cable E1Eyelet SS6 for 0.25 in. (6 mm) O.D. Cable E2Special Z9Probe Attachment MaterialNone Y316/L Stainless Steel, Standard S6* 304/L Stainless Steel S4 Hastelloy C-276H1 Monel M4 Inconel 600N2 Special Z9 Process Temperature ExtensionProcess Temperature 32 °F (0 °C) to 250 °F (121 °C) Standard H0 Temperature Extension, extends electronics additional 6 in. above process connection H6 Special Z914Base ModelMT5000 Series Guide Wave Radar ordering information continuedMT5.xxx.xxxx.xx.x.xx(x).x(xxx).xxxx.xxxx.xx.xxxx.x(xxxx)xxx xxxx xxx Electronics ModuleNone YTotal Level, Graphic Display, 4 ... 20 mA Output, HART M7ATotal Level, Graphic Display, FOUNDATION fieldbus M7AFTotal and/or Interface Level, Graphic Display, 4 ... 20 mA Output, HART M7BTotal and/or Interface Level, Graphic Display, FOUNDATION fieldbus M7BFSpecial Z9Agency ApprovalsGeneral purpose Y0IECEx Intrinsically safe E1IECEx Flameproof E2FM / CSA Intrinsically safe N1FM / CSA Explosion proof Housing N2Special Z9Process Connection TypeNone Y0 Integral Thread, Standard Process Connection P4* Welded Process Connection P2 Loose flange for use with NPT threads. Specify flange type, material, and rating P3 Special Z9 Process Connection MaterialNone Y 304/L Stainless Steel S4 316/L Stainless Steel S6* Carbon Steel C1 Hastelloy C-276H1 Alloy 20A2 Monel 400M4 Super Duplex Stainless Steel D2 Special Z915Base ModelMT5000 Series Guide Wave Radar ordering information continuedMT5.xxx.xxxx.xx.x.xx(x).x(xxx).xxxx.xxxx.xx.xxxx.xxxx Flange or Plug Size // Rating / TypeNone Y3/4" MNPT Threaded (C1, C1H process couplers)NTBN* 1.0" MNPT Threaded (C9 process coupler)NTCN*1.5" MNPT Threaded (C2, C2H and C8 process couplers)NTEN*2.5" MNPT Threaded (C3 process coupler)NTGN 3/4" G thread, British Pipe Thread (BSPP), (C1, C1H process couplers)GTBN 1.0" G thread, British Pipe Thread (BSPP), (C9 process coupler)GTCN1.5" G thread, British Pipe Thread (BSPP), (C2, C2H and C8 process couplers)GTEN2.5" G thread, British Pipe Thread (BSPP), (C3 process coupler)GTGN 1 in. // ANSI / ASME Class 150 // Raised Face Flange R111 in. // ANSI / ASME Class 300 // Raised Face Flange R131 in. // ANSI / ASME Class 600 // Raised Face Flange R16 1.5 in. // ANSI / ASME Class 150 // Raised Face Flange R151 1.5 in. // ANSI / ASME Class 300 // Raised Face Flange R1531.5 in. // ANSI / ASME Class 600 // Raised Face Flange R1562 in. // ANSI / ASME Class 150 // Raised Face Flange R212 in. // ANSI / ASME Class 300 // Raised Face Flange R232 in. // ANSI / ASME Class 600 // Raised Face Flange R26 2.5 in. // ANSI / ASME Class 150 // Raised Face Flange R251 2.5 in. // ANSI / ASME Class 300 // Raised Face Flange R2532.5 in. // ANSI / ASME Class 600 // Raised Face Flange R2563 in. // ANSI / ASME Class 150 // Raised Face Flange R313 in. // ANSI / ASME Class 300 // Raised Face Flange R333 in. // ANSI / ASME Class 600 // Raised Face Flange R364 in. // ANSI / ASME Class 150 // Raised Face Flange R414 in. // ANSI / ASME Class 300 // Raised Face Flange R434 in. // ANSI / ASME Class 600 // Raised Face Flange R466 in. // ANSI / ASME Class 150 // Raised Face Flange R616 in. // ANSI / ASME Class 300 // Raised Face Flange R636 in. // ANSI / ASME Class 600 // Raised Face Flange R66 DN 25 // PN 25 // Raised Face Flange D2525 DN 25 // PN 40 // Raised Face Flange D2540 DN 32 // PN 25 // Raised Face Flange D3225Note: DIN flanges are per EN1092-116Base ModelMT5000 Series Guide Wave Radar ordering information continuedMT5.xxx.xxxx.xx.x.xx(x).x(xxx).xxxx.xxxx.xx.xxxx.xxxx Flange or Plug Size // Rating / Type - Continued from previous pageDN 32 // PN 40 // Raised Face Flange D3240 DN 40 // PN 25 // Raised Face Flange D4025 DN 40 // PN 40 // Raised Face Flange D4040 DN 50 // PN 25 // Raised Face Flange D5025 DN 50 // PN 40 // Raised Face Flange D5040 DN 65 // PN 25 // Raised Face Flange D6525 DN 65 // PN 40 // Raised Face Flange D6540 DN 80 // PN 25 // Raised Face Flange D8025 DN 80 // PN 40 // Raised Face Flange D8040 DN 100 // PN 25 // Raised Face Flange D10025 DN 100 // PN 40 // Raised Face Flange D10040 DN 125 // PN 25 // Raised Face Flange D12525 DN 125 // PN 40 // Raised Face Flange D12540 DN 150 // PN 25 // Raised Face Flange D15025 DN 150 // PN 40 // Raised Face Flange D15040 1.0 in. // ANSI / ASME Class 3000 // NPT-m Hex Plug P11.5 in. // ANSI / ASME Class 3000 // NPT-m Hex Plug P152.0 in. // ANSI / ASME Class 3000 // NPT-m Hex Plug P22.5 in. // ANSI / ASME Class 3000 // NPT-m Hex Plug P253.0 in. // ANSI / ASME Class 3000 // NPT-m Hex Plug P3Any flange not listed above, consult factory Z9 Note: DIN flanges are per EN1092-1Option codes are on the following page.Option codes follow the model code with a dash (-)17MT5000 Series guided wave radar transmitter additional option codesAdditional options MT5.xxx.xx(x).x(xx)x.xx.xxx(xx).x(x).xx(x)- xxx xxx xxx xxxx xx Additional Approvals or CertificationsFurnished with CRN data package (includes tagging, MTR and hydro tests)CRNNuclear use, device to be used in a nuclear facility (application must be reviewed by ABB)P4Special CLZSensor optionsElectro-polish finish on wetted metal surfaces (not possible with cable or coax probe designs)SEL240 grit polish on wetted metal surfaces (not possible with cable or coax probe designs) SEPAdd Teflon sleeve on probe for slip resistance only, not for corrosion resistance SENAdd 1/4" purge or flush port (requires extended process coupler)SEBExtended process coupler, specify distance SE1Segment probe into 10ft sections, specific rod and coax probe selections SE3 Degreased (oil and grease free) for oxygen or chlorine service P1Sensor special SEZTarget float optionsAdd 316L target float, minimum fluid specific gravity 0.6FT1 Special target float per application requirements FZ9 Remote electronics signal cable length (For remote coupler only)1.5 m (approx. 5 ft)SRW3 m (approx. 9.8 ft)SRT5 m (approx. 16.4 ft)SR1 Custom coaxial remote length SRZ Repeat Indicator (for two analog level outputs)RI100 remote indicator (HART only), requires additional 4-20 loop, same material as transmitterhousing AR Option codes continue on the following page.Option codes follow the model code with a dash (-)18MT5000 Series guided wave radar transmitter additional option codesAdditional options MT5.xxx.xx(x).x(xx)x.xx.xxx(xx).x(x).xx(x)-xxx.xxx.xxx.xxxx.xx.xxx xx xxxx xx xxx xx xxxAdd rod extension rod to probe (material and diameter determined by couplerselection)152.4 mm (6.0 in)AR1304.8 mm (12.0 in.)AR2457.2 mm (18 in.)AR3Special AR9Mounted AccessoriesCentering spacers as specified separately on order ASCentering disk for cable weight (cable probes only, disk material same as weight)1.50 in. (38.1 mm) O.D.; 1.50 in. (38.1 mm) Min Stilling Well Size WD12.0 in. (50.8 mm) O.D.; 2.0 in. (50.8 mm) Min Stilling Well Size WD22.3 in. (58.7 mm) O.D.; 2.5 in. (63.5 mm) Min Stilling Well Size WD32.8 in. (71.1 mm) O.D.;3.0 in. (76.2 mm) Min Stilling Well Size WD43.75 in. (95.3 mm) O.D.;4.0 in. (101.6 mm) Min Stilling Well Size WD54.0 in. (101.6 mm) O.D.;5.0 in. (125 mm) Min Stilling Well Size WD6Custom disk for cable weight (consult factory)WDZDevice Identification PlateAdd stainless steel hang tag with custom tag no.T1Add stainless steel hang tag, custom markings 4 lines, 22 characters per line TSOther tagging special TZElectrical Connector TypeFieldbus 7/8 in. (without mating plug)U1Fieldbus M12 x 1 (without mating plug)U2M20 stainless steel adapter U8M20 brass adaptor U9Electrical Connector Special UZSurge ProtectorSurge / Transient protector S1Special OtherTransmitter Special Option STTTower length extension special length - meter insulation capability TEZ Special paint or treatment on housing STH Special paint or treatment on flange STF Additional requirements and order comments are continued on the following page.All codes located behind the // are for additional requirements and order comments.These codes will not be included on the device tag.19All codes located behind the // are for additional requirements and order comments.These codes will not be included on the device tag.MT5000 Series guided wave radar additional option codesAdditional requirements and order comments MT5..............x- …//xx xxx CertificatesTest report 2.2 acc. EN 10204C1MTR 3.1, Material monitoring with inspection certificate 3.1 acc. EN 10204C2MTR 3.2, Material monitoring with inspection certificate 3.2 acc. EN 10204C3Declaration of compliance with the order 2.1 acc. EN 10204C4Material monitoring NACE MR 0175, MR 0103 with inspection certificate 3.1 acc. EN 10204CNPrinted record of configured settings in transmitter CGWith hydrostatic test report CHWith PMI report on wetted metal materials CJOther certificates CZDrawingsDrawings for approval required prior to construction GD1Drawings for record required GD2Certified as built drawings required GD3Other drawings GDZAdditional requirements and order comments are continued on the following page.All codes located behind the // are for additional requirements and order comments.These codes will not be included on the device tag.20MT5000 Series guided wave radar additional option codesAdditional Requirements and coder comments MT5.............x-…//xx.xx.xx.xxx.xx xx xx xx Documentation Language (installation, operation and maintenance manual)German M1Italian M2Spanish M3French M4English M5Russian MBOthers MZ Calibration Type3-point calibration verification certificate, factory default 90, 50 and 10% of measurable zone,or customer specified points within measurable zone R35-point calibration verification certificate, factory default 90, 75, 50, 25 and 10% of measurable zone,or customer specified points within measurable zone R5 Custom Linearization or Strapping table entered (up to 20 pts). RL Witnessed calibration with certificate RW Special calibration RZ Programming and Parameter SettingsCustom parameter settings N6 Software SpecialSpecified software version V1 Custom software version VZProbe LengthMinimum 24 in. in. Minimum 609.6 mm mm21Contact usABB Inc.Measurement & Analytics3400. Rue Pierre-ArdouinQuébec, Québec G1P 0B2 CANADA Office Phone: +1 418.877.2944 ext. 2109 Direct Line : +1 581.628.2109E-mail:*************.com/levelABBMeasurement & AnalyticsNo. 5, Lane 369, Chuangye Road, Kangqiao Town, Pudong District Shanghai, 201319, P.R.ChinaTel:+86 10 64231407Fax:+86 10 64371913/level NoteWe reserve the right to make technical changes or modify the contents of this document without prior notice. With regard to purchase orders, the agreed particulars shall prevail. ABB does not accept any responsibility whatsoever for potential errors or possible lack of information in this document.We reserve all rights in this document and in the subject matter and illustrations contained therein. Any reproduction, disclosure to third parties or utilization of its contents - in whole or in parts –is forbidden without prior written consent of ABB.Copyright © 2020 ABBAll rights reservedDS/MT5-ENRev.C11.2222。

收稿日期：2023-02-07基金项目：国家杰出青年科学基金（52025066）资助作者简介：闫广涵（1997），男，在读博士研究生。

引用格式：闫广涵，严晗，姜楠，等.新型航空发动机空气冷却器流动传热性能试验[J].航空发动机，2023，49（4）：48-53.YAN Guanghan ，YAN Han ，JIANG Nan ，et al.Flow and heat transfer performance test of a new type air cooler for aeroengine[J].Aeroengine ，2023，49（4）：48-53.新型航空发动机空气冷却器流动传热性能试验闫广涵1，严晗1，姜楠2，刘瑜1，梁义强2，赵佳飞1（1.大连理工大学能源与动力学院，辽宁大连116024；2.中国航发沈阳发动机研究所，沈阳110015）摘要：空气冷却器是航空发动机中空气热量交换的重要场所，针对传统扰动结构强化换热不足问题，重点研究了空气冷却器中扰动结构的结构形貌特征与流动换热的关系。

以三周期极小曲面结构为基础，设计制造了D 型极小曲面扰动结构、P 型极小曲面扰动结构和基于Sigmoid 函数杂化方法的D-P 型（P-D 型）结构。

并利用纳米CT 重构出样品的3维数字特征，试验研究了不同结构来流速度与压降、换热性能和综合换热性能的关系。

结果表明：D 型极小曲面结构具有最优的压降、换热性能和综合换热性能：D-P 型杂化极小曲面结构的阻力系数f 最大，比D 型结构的高56.81%；D 型的平均努塞尔数Nu 比P 型的高18.49%，P-D 和D-P 杂化结构的换热性能比P 型结构的有效提高；P-D 型D-P 型杂化结构的Nu 分别比P 型结构的高2%和8.27%。

在4种结构中，D 型结构的综合换热性能最优，分别比P 型、P-D 型、D-P 型结构的高40.35%、57.2%、71.02%。

半导体式压力传感器的结构与动作说明应变片式压力传感器的结构与动作说明●半导体隔膜式压力传感器的结构与动作说明●特点●传感器芯片的结构半导体隔膜式压力传感器采用双重隔膜方式，由直接与测量介质接触的高耐腐蚀性金属隔膜（相当于Hastelloy哈氏合金C-22、SUS316L等）与通过封入的硅油检测压力的硅芯片（硅隔膜）构成。

通过压力导入口直接与测量介质接触的是SUS316L隔膜（或相当于Hastelloy哈氏合金C-22等），介质（空气、水、油及其他）不会浸入其中，能够稳定测量。

［连接螺丝的形状为G3/8时，与配管间采用O型圈密封（氟橡胶）。

］●可以制作能够测量正压、负压、连成压、绝对压力的各种传感器元件●直接接触介质的受压部可以采用相当于Hastelloy哈氏合金C-22、　SUS316L的材料制作，因此，耐腐蚀性能优良●用于检测压力的硅芯片，其隔膜厚度较大，因此，具有优良的耐压性能●半导体隔膜式压力传感器　VESW , VESX , VESY , VESZ , VHR3 , VHG3 , VAR3 , VAG3 , VPRNP , VPNPR , VPNPG , VNF , HS1 , HV1 , AS1 , AV1 ,　NS1 , NV1 , VESI , VESV , VSW2 , VST 等●应变片式压力传感器　VSD4 , NSMS-A6VB , HSSC , HSSC-A6V , VHS , VHST , HSMC2,　HSMC , VPE , VPB , VPRT , VPRTF , VPRQ , VPRQF , 0VPVT ,　VPVTF , VPVQ , VPVQF , VPRF , VFM , VF , VFS , VTRF , VPRF2 ,　VPRH2 等硅芯片受压部（硅隔膜）与通常的IC制作工艺相同，利用杂质扩散原理形成硅应变片。

当向硅芯片施加压力时，电阻应变片的电阻值会随着其变形而改变，并转换为电信号。

德鲁克压力传感器PTX5072PTX5072，是德鲁克经典压力传感器PTX7517停产后的完全替代型号，也可以代替原PX1400和PTX1400C。

但是代替PTX14000后的PTX5072-TB-A1-CA-HO-PA就不再有本安的性能。

PTX5072压力传感器完整型号：PTX5072-TB-A1-CA-HO-PA，它提供了高性能的可配置压力测量解决方案。

德鲁克硅技术和模拟电路的优势使其在稳定性、低功率和频率响应方面具有最好的性能表现。

模块式设计和精益生产技术的采用使用户可以灵活的选择产品，满足其特殊的应用需求。

德鲁克压力传感器PTX5072常规量程，100kpa，250kpa，1mpa，1.6mpa，2.5mpa 4mpa，5mpa ，6mpa，8mpa，25mpa，35mpa一般精度，现货供应，上海京工库存能力强大，欢迎来电咨询！PTX5072规格参数：精度：GE DRUCK PTX5072-TB-A1-CA-HO-PA压力变送器最大为±0.2% FS，一般为±0.1% FS（非线性、滞后及重复性综合误差）德鲁克PTX507压力传感器量程：0～7kPa 至0～70MPa 之间任意量程表压或绝压，可测量复合压力（量程迁移）:如-100kPa～0，-10kPa～5kPa，10kPa～25kPa本安选项:符合ATEX 1254 , Eex ia IIC T4 标准零点和满量程：用户可通过内置的电位器进行5%调整温度影响：一般0.012%FS/℃，最大0.017%FS/℃，-10～+50℃温度补偿范围；一般0.015%FS/℃，最大0.02%FS/℃，-20～+80℃温度补偿范围冲击和震动指标：1000G，0.5ms，正弦MIL-STD-202F（方式213B，条件A）绝缘电阻：>10MΩ 500Vdc激励下；本质安全型 <5mA 500Vac德鲁克PTX507压力传感器压力响应：1kHzGE德鲁克PTX5072输出：4～20mA（两线）工作温度:-40～+100℃压力接口:G1/4内螺纹（可选配各种转接头,如M20×1.5外螺纹等）电路接口:DIN插座（ PTX5072-TB-A1-CA-HO-PA）, IP65整体电缆（PTX7511）, IP67整体电缆（PTX7533）,6针军用插座（PTX7516）,M20管螺纹（PTX7535）PTX5072应用范围：PTX5072系列压力传感器可广泛用于石油和天然气、汽车、船舶、铁路、航天以及测试设备及过程工业等行业。

Series 2-5000 Minihelic ® II Differential Pressure GageSpecifications - Installation and Operating InstructionsBulletin A-36position at the factory. If the gage is used in any other position, it must be re-zeroed each time the position is changed. Gages with ranges under 5 inches w.c. (1.24 kPa), or the equivalent, should be used only in the vertical position unless special calibrationwas specified when ordering.Use only with air or compatible non-corrosive gases.HIGH PRESSURE PORT Ø7/16 [11.11] HOLE IN PANELFOR SURFACE MOUNTLOW PRESSURE PORTØ7/16 [11.11] HOLE IN PANEL 9/32®3. To surface-mount the gage, drill two 5/32˝ (3.97 mm)holes on a horizontal line, 2-1/3˝ (59.26 mm) apart for mounting screws. Next, drill two 7/16˝ (11.11 mm)holes 1-1/32˝ (26.19 mm) apart on a vertical linefor pressure connections. Install mounting studs inback of the gage, insert through holes in the panel, and secure with hex nuts provided. Be careful not to block the slotted hole near the right-hand mounting hole. This provides a path for pressure relief in theevent of over-pressurization.4. To panel-mount gage, cut a 2-5/8˝ diameter hole.Install the mounting studs in the back of gage,position gage in the panel, and place bracket over the studs. Thread hex nuts over studs and tighten.5. After installation, the gage may need to be zeroedbefore placing in operation. If re-zeroing is required, firmly hold the case of gage with one hand andunscrew the front cover with the palm of the otherhand in a counterclockwise direction. If difficult toloosen, place a small sheet of rubber between thecover and the palm of the hand. Zero-adjust screwis located behind the scale at the pair marked “zero.”Use the hex allen wrench supplied and adjust untilpointer is on zero. This must be done with bothpressure connections vented to atmosphere and the gage oriented in the final mounting position. Replace cover. 6. To measure positive pressure, connect tubing toport marked “HI” and vent “LO” port to atmosphere.For negative pressure (vacuum), connect to portmarked “LO” and vent “HI” port to atmosphere. For differential pressure, connect higher pressure to port marked “HI” and lower to “LO” port. If gage is supplied with 1/8˝ NPT connections, be careful not to over-tighten fittings to avoid damage to the gage. CALIBRATION CHECKSelect a second gage or manometer of known accuracy and in an appropriate range. Use short lengths of rubber or vinyl tubing to connect the high-pressure side of the Minihelic® II gage and the test gage to two legs of a tee. Very slowly, apply pressure through the third leg. Allow enough time for pressure to equalize throughout the system and for fluid to drain. if a manometer is being used. Compare readings. If the gage being tested exceeds rated accuracy, it should be returned to the factory for recalibration.MAINTENANCENo lubrication or periodic servicing is required. Keep case exterior and cover clean. Occasionally, disconnect pressure lines to vent both sides of the gage to atmosphere and re-zero per paragraph 5.。