Orion钠参比电极210058

Orion纳表参比电极210058Orion钠参比电极210058Orion钠测量电极210048Orion纯水电极2001SCOrion电导电极2002SSOrion参比电极填充液150072Orion纯水电极填充液2001F4Orion电导率标准液011008（询价：15 8 0 5 0 6 12 13 李工）Orion硅表标准液223020Orion硅表试剂2230REOrion硅表维护套件2230MKOrion硅表蠕动泵头2230PH1Orion硅表蠕动泵头2230PH2Orion硅表泵管压盖2230PIOrion钠表扩散管211194Orion钠表补偿电极2100TPOrion钠表校正套件181148室外防爆墙挂式话站7335-001（含HKZYPVZP2-22-16铠装电缆500米）室外防爆墙挂式扬声器13304-002英特诺曼滤芯323028、300251、319965摩菲 EG21P-400-24-ASD-A700AES2PMK-400J120-190J120K-367诺蒂菲尔显示控制卡 ACM-24AT诺蒂菲尔NFS-3030 系统处理单元 AMPS-24E诺蒂菲尔NFS-3030 中央处理单元 CPU2-3030D诺蒂菲尔智能感烟探测器FSP-851诺蒂菲尔智能感烟探测器FST-851诺蒂菲尔回路卡，单回路LCM-320诺蒂菲尔回路扩展卡LEM-320诺蒂菲尔远程启动停止联动控制卡POM-8C诺蒂菲尔UPT-240S美国TFT螺纹接口喷枪 BGH-HT150-PD罗斯蒙特HART手操器 475 具有HART通汉协议的仪表进行参数设威肯齿轮泵GPV-0550-60英国KENNEDY高速钢双金属开孔器组套KEN-050-2400K克伦威尔工具罗斯蒙特3051TG4A2B21AB4IPF 速度传感器IN991070GEMCO1.Sensor 955EC41600M FMX2.parts SD05221003.parts SD05218004.parts SD0522000REXROTH柱塞泵A10VS071DFLR/31R-PPA12K01-S0160AUTRONICA型号BSZ-310BS-320/AUTRONICA FIRE ALARM PANEL奥盖尔Oilgear 泵型号:PFWH-25-RSAY-NN此系列停产替代型号PFWJ-064-A1UV-RSFY-F-100NN美卓 ECN3305DN2个正确型号为EN33A05DMOBOLD 温度检测 TWD-L9410233BBETTIS维修包MODEL G100T32-SR3CW-M11 SN：083609A-1（执行器型号）数量2 G10XT32 Power Module Seal Kit + M11 Pump & Reservoi维修包 MODEL G8032-SR3CW-M11 SN:083609A-2（执行器型号）数量2 G8X32 Power Module Seal Kit + M11 Pump & ReservoiceKELLER 传感器 PA-21Y/250bar/81585.50-250bar德瑞克旋流器锥筒（10寸除沙气总成）12945-21-007Mfr: akron1. 3425 Qty: 1 pcs2. 5147 Qty: 1 pcsMfr: IDECO1. BEARING, CROSS HEAD IB-671 Qty: 3 pcs2. LOWER CROSS HEAD GUIDE 551-106-03 Qty: 3 pcs3. CROSS HEAD 551-106-01 Qty: 3 pcsBIFOLD FLUID POWERmodel:1、FP10P-S2-08-32-XU-V-77A9-24D-MLT-57-K85，O-RING：FP06P-77A9，电压：24VDC2、FP06P-S1-04-32-XU-V-77A9-24D-ML-30-K85，O-RING：FP06P-77A9，电压：24VDC SDV、BDV3、SH09-FR-SR-MD-10-VJ BCW1013-0905，0.4-10BarG,Max In 20BarG SDV、BDV4、FP06P-S1-06-32-NU-V-77A-24D-57-K85，O-RING：FP10P-77A，24VDC法国EFFBE气缸KHF-2000GEMCO品牌1.位移传感器 355EC41600M FMX 1PCS2.感应器配件 SD0522100 2PCS3.感应器配件 SD0521800 2PCS4.感应器配件 SD0522000 2PCSE+H 液位变送器\FMI51-A1AACJA2A1D\E+H\用于空压机Name:LEVEL TRANSMITTER\Spec:FMI51-A1AACJA2A1D L=750mm 4~20mA HART\Model:FMI51-A1AACJA2A1D L=750mm 4~20mA HART\Material:SSTContelec 电位器PD2210-4FM 1K/1K/JSSB电机，型号是DSE-0380.206.40GAI-TRONICS701-302威伯科WABCO:40225011402250124235060010NOV 220251-005CARTER 加液枪50E701-1MISSION泵配件22223-01-30填料箱QT600-320622A填料压盖Bronze22451-1机械密封Tungsten carbide填料Graphite/acrylic20612-02-33轴42CrMo20619-01油封Buna-n20615-1内轴承Vendor20619-02油封Buna-n20616-1轴承Vendor英格索兰气动马达 4840U米森泵 12x10x23 砂泵Sterling MotorTYPE: XI0054PHIECKERLE艾可勒 EIPH2-008RK03-11美卓阀RAA080AS-B1JU8/20-ND9103HN-K1 DN80克诺尔LK8901数量11 x LK8901ESBOSCH博士：0511725021德国P+F倍加福编码器PSM58N-F3AAGROBN-12133 割枪把170-174656 个 1 厂家：UNITOR SHIPSSERVICE AS ；for Welding & Cutting Torch UNITOR X 214 割枪头170-234807 个5 厂家：UNITOR SHIPSSERVICE AS ；90 DEG. HEAD ANGLE.5 电缆接头195-632893 个20 厂家：UNITOR SHIPSSERVICE AS ；DIX70 MALE-FEMALEPINTER 压差开关 MANOCOMB-IP65/1K2APDI 0-10bar1. MONGOOSE ASSY. SIDE DETAIL: 9671740-11MOTOR 60HP 230/460V , 60 HZPART NO: 69120022. SHAKER ASSY. FIGURE NO.: 967135&9671735&9671735-05 GASKET, RING ANSI FLANGE 10”MSPART NO: 9671652-01HPI型号：P1AAN3060HL20A02N(3072800457)。

2.1 水样温度根据Polymetron9245钠离子分析仪的使用手册，要求水样温度5～45℃，经查阅相关文献，测量水温最佳温度是25±1℃。

某厂的除盐水装置设在厂房内，北方冬季有保暖措施，同时在环境温度偏低时，在整套装置的进水端增加提温措施，可以保证样品水温全年维持在25～29℃，而且钠离子分析仪对温度具有一定的补偿功能，因此水样温度可以满足仪表测量准确性的要求。

2.2 水样pH当水样的pH<10时，受的干扰，测量相对误差随着水样的pH 降低而成倍增大；当水样pH ≥10时，的影响减小，测量相对误差控制在5%以内；若水样pH 过大，也会造成测量数据异常偏大，甚至可能导致碱结晶在电极上。

因此，为保证在线钠表的测量准确性，必须采取有效的碱化措施，控制pH 在10.5～11即可满足测量要求。

Polymetron9245钠离子分析仪调节pH 的试剂为二异丙胺，利用其易挥发特性，在碱化瓶中形成碱性气氛，二异丙胺分子透过扩散管通过气泵打入测量系统中，调节水样的pH 。

该分析仪不能自动检测水样的pH ，不能自动调节气泵的流量，需要人为手工测定pH 和调节流量。

在运行过程中，气态的二异丙胺在扩散管中会发生结晶而堵塞管路，若长时间不清洗扩散管，会导致pH 偏低，因此需要每1～2个月对扩散管进行清洗或更换。

在日常维护中，还需定期检查整个碱化系统是否有泄漏以及碱化瓶的O 型圈是否完好等。

2.3 进样流速Polymetron9245钠离子分析仪的水样流速为5～30L/h ，压力0.2～6bar ，过低或过高均会导致分析数据结果异常偏大或偏小。

实际运行的最佳流速需要进行摸索确定。

生产处理量的波动以及再生投用后的运行，都会造成进样流速的不稳定，为了保证测量的准确性，需要在较大波动后对流速进行校准。

Polymetron9245在线钠离子分析仪没有流量计，通过长时间的经验摸索，打开钠表进水阀后，调节水样入口流量，以20秒左右0 引言在线分析仪表在炼油化工企业生产中对产品质量的把控具有重要意义，能够连续监测产品质量状态，为生产的及时调整提供决策依据。

赛默飞世尔钠表参比电极你还在为赛默飞世尔钠表参比电极210058找不到而纠结吗，那就马上联系我，只要你提供品牌和型号，我们就可以帮你们查找，询价。

Thermo赛默飞世尔钠表参比电极210058 FOR 2111LLEN 10EN Thermo赛默飞世尔钠表测量电极210048 FOR 2111LLEN 10EN Thermo参比电极100058 郑15 260 822 709 q72 827 45 85Thermo赛默飞世尔微钠表2111LLThermo赛默飞世尔1709高氟表170903Thermo赛默飞世尔试剂（壹个月用）危险试剂170930Thermo赛默飞世尔试剂（壹个月用）危险试剂170930Thermo赛默飞世尔标准液（1000ppm/475ml）110902Thermo赛默飞世尔标准液940907Thermo赛默飞世尔参比电极填充液150071Thermo赛默飞世尔参比电极100031Thermo赛默飞世尔氟电极100029Thermo赛默飞世尔危险试剂（货运飞机）170950 试剂/标准液套件（壹年用）Thermo赛默飞世尔氯表2117XPThermo赛默飞世尔氯表2117XPEN 含主表外保护箱Thermo赛默飞世尔工业电导率表1104CDThermo赛默飞世尔工业溶氧表1103DOThermo赛默飞世尔1102pH 工业pH/ORP 表Thermo赛默飞世尔Thermo赛默飞世尔Thermo赛默飞世尔Thermo赛默飞世尔Thermo赛默飞世尔仪器简介：2111LL—新一代微钠表，1811EL的升级产品！近年来，火力发电厂中连续监测水和蒸汽流路系统中的钠离子含量越来越被人们所重视。

有两个重要的原因：了解了钠离子对汽轮机的危害；机组正朝高压大容量方向发展。

发生在汽轮机内的腐蚀过程被许多研究所证实，并且有相当数量的爆管，炉管变脆，汽轮机故障都是由于腐蚀造成的。

腐蚀过程中有几种相关的化学成份，其中钠离子是造成这种问题最重要的原因之一。

图1——钠表样水流程方框图Inlet valve——进口阀，Bypass filter——旁路过滤器，Bypass valve——旁路阀，Pressure reducing valve——压力调节阀，Flow valve——流量计入口阀，Flowmeter ——流量计，Restrictor——节流管，Calibration diverter valve——标定切换阀，Temperature probe——温度探头，Reference probe——参比电极，Sensing probe——钠电极，Calibration level——标定液位，Measuring level——测量液位，Reagent addition system——试剂扩散系统，Drain——排污管图2——钠表正常测量状态下的样水流程1 inlet valve——进口阀，2 bypass filter——旁路过滤器，3 pressure regulator ——压力调节阀，4 flowmeter——流量计，5 flow restrictor tubing——节流管，6 electrolyte reservoir——电解液瓶，7 reference probe——参比电极，8 sensing probe ——钠电极，9 temperature probe——温度探头，11 flow cell manifold——流动池组件，14 reagent diffusion botttle——试剂扩散瓶，18 air pump——空气泵，drain——排污管，36 flow valve——流量计入口阀，37 bypass valve——旁路阀1.3 干扰抑制：在测量低浓度钠离子时,为了消除氢离子的干扰,1811EL型钠表将样水的pH 值调节到11以上,这里的pH值调节是通过ORION公司取得专利权的扩散工艺来实现的,样水流经试剂扩散从而将样水的pH值提高到11以上.图5；仪表拆箱检查仪表外观有无损坏，并根据到货清单核对物品名称、规格、数量，发现问题立即与有关部门联系解决。

第一章概述DWG5301中文在线钠度计是我公司在吸收了目前国际、国内钠度计经验和长处的基础上，设计出的能全面替代进口产品，智能化程度高，适用于中国市场的全新一代钠度计；采用虹吸原理吸收二异丙胺，碱化效果好，维护量小，不需要渗透管或者气泵等耗材。

阳床钠表请注明，阳床钠表的pH 值2～4pH范围内要碱化到10.20pH采用其它方式。

该产品可广泛适用于电力系统、化工系统、制药工业等部门中除盐水、补给水、凝结水、蒸馏水及蒸汽等介质中微量钠的连续测量。

基本功能✧采用两点标定也可采用一点标定，确保了低浓度测量的准确性。

✧采用本公司的高性能100068钠测量和100078钠参比电极，保证了系统的一致性和良好的匹配。

✧全智能化，采用单片微处理器完成钠浓度测量、温度测量和补偿，没有功能开关、调节旋钮和电位器。

✧采用最新器件，输入阻抗大于1012Ω。

独特功能1、全中文显示，操作方便:全中文显示,界面友好：采用高分辨度的点阵图型液晶显示模块, 所有的数据、状态和操作提示都是中文显示,完全没有厂家自己定义的符号或代码。

简单的菜单结构，文本式的人表对话：与传统的仪表相比,DWG5301功能增加了很多,但由于采用了分门别类的菜单结构,类似微机的操作方法,使用起来更清晰、方便。

不必记忆操作步骤和操作顺序,可以不用说明书,按照屏幕上的提示就可操作。

多参数同时(屏)显示：在一屏上同时显示钠浓度、输入mV数、输出电流、温度、时间和状态。

主显示以10X10mm规格显示钠浓度,醒目,可视距离远;副显示以5X5的规格显示输出电流、温度、状态、星期、年月日和时分秒等, 以满足用户的不同使用习惯和提供二次表的时间基准。

2、功能多而实用:历史曲线和数字记录仪功能：二次表每隔5分钟自动存储一次测量值,可连续存储一个月的钠浓度。

在一屏上同时提供“历史曲线”显示和“定时定点”查询两种方式, “历史曲线”从总体上反映水质的变化趋势和过程,很利于发现问题和解决问题。

简单明了，轻松实验ST2100是一款操作上非常简单的产品，产品质量可靠，达到0.01pH 精度的测量，是您最为经济的选择。

ST2100 做了优化设计，保证操作最为容易简单；同时具备很多实用功能，保障测量的精准度与便捷。

可靠的性能与质控● 仪表通过了计量的相关检测(CMC)，电磁兼容性测试等。

高低温环境实验保障了在不同环境下使用简洁的界面与操作● ST2100最大程度的简化了显示与按键，让您无需说明书即可自学自用，自带的快速操作指南帮助June 18th, 2012订货信息/订货号/标准配置实验室pH 计ST2100 /B 订货号：30067630● ST2100 主机仪表● 12V DC 电源● 独立电极支架实验室pH 计ST2100 /E 订货号：30067631● ST2100 /B 配置内容● pH 缓冲液粉剂套件(4.00; 6.86; 9.18)● ST210 二合一可充液电极实验室pH 计ST2100 /F 订货号：30067632● ST2100 /E 配置内容● STTEMP30 独立温度电极实验室pH 计ST2100 /H 订货号：30341684● ST2100 /B 配置内容● ST220 二合一塑壳凝胶电极● pH 缓冲液粉剂套件(4.00; 6.86; 9.18)实验室pH 计ST2100 /M 订货号：30341685● ST2100 /H 配置内容● STTEMP30 独立温度电极奥豪斯始终致力于其产品功能的改进工作。

基于该原因，产品的技术规格亦会受到更改。

奥豪斯公司保留修改的权利。

如有变更，恕不另行通知。

实验室pH 计 ST2100 计量技术参数指标：计量技术参数 电子单元测量范围：(0.00~14.00) pH测量范围：(0.00-14.00) pH, (-1999~1999) mV 仪器级别：0.01级电子测量范围 0.00…14.00 pH–1999…1999 mV0 ˚C …100 ˚C 分辨率 0.01 pH 1 mV0.1 ˚C准确度 ± 0.01 pH ± 1 mV± 0.5 ˚C缓冲液组 1 组 (4.00; 6.86; 9.18)校准 2 点存储 最近一次校准数据 (零电位与斜率)电源110-240V/50Hz, DC 12V尺寸/重量 约 220 W x 175 D x 78 H mm / 0.75 kg 显示器 液晶输入 BNC, 阻抗 > 10e+12 ΩCinch, NTC 30 k Ω参比电极输入 2mm 香蕉插座温度补偿 ATC & MTC 外壳ABS独立电极支架瓶装pH 缓冲液仪表接口多种ST 系列电极可选实验室pH 计 ST2100其它指标：ST2100通用实验室pH 计30066899 P r i n t e d i n P .R . C h i n a 2016/08订货号 描述30129355 pH 电极ST350，三合一玻璃可充液83032961 pH 电极 ST320，三合一塑壳凝胶免充液，适用于常规澄清液80252529 pH 电极 ST310，三合一塑壳可充液，适用于常规澄清液30240975 pH 电极ST270，二合一电极，用于测量肉类/奶酪/水果/土壤等半固体样品30129358 pH 电极ST260，二合一玻壳双盐桥pH 电极，适用于Tris-Buffer 测量83033017 pH 电极 ST230，二合一玻璃可充液，适用于浑浊液等30341687 pH 电极 ST220，二合一塑壳凝胶免充液，适用于常规澄清液 80252530 pH 电极 ST210，二合一塑壳可充液，适用于常规澄清液83032960 pH 电极 STPURE ，二合一玻璃可充液，适用于自来水，蒸馏水等 30129471 pH 电极STSURF ，二合一塑壳平面pH 电极，可测量如皮肤，纸张等 30038552 ORP 电极 STORP2，玻璃杆铂圈可充液，适用样品范围广30038554 ORP 电极 STOPR1，塑料杆铂片凝胶免充液，适用一般样品30087567 pH 微量样品电极STMICRO5，杆径长5mmx80mm 30087570 pH 微量样品电极STMICRO8，杆径长8mmx150mm 30087377 复合氟离子电极STISE2230087422 复合氯离子电极STISE2130087557 复合铵离子电极STISE2783032959 温度电极 STTEMP30，热敏电阻为NTC 30 k Ω80252531 缓冲液粉剂套件(4.00; 6.86; 9.18)，各3小袋，每袋可配250ml 溶液30100424 缓冲液pH1.68，瓶装250ml 30100425 缓冲液pH4.01，瓶装250ml 30100426 缓冲液pH6.86，瓶装250ml 30100427 缓冲液pH7.00，瓶装250ml 30100428 缓冲液pH9.18，瓶装250ml 30100429 缓冲液pH10.01，瓶装250ml 30100440 缓冲液pH12.45，瓶装250ml30058733独立电极支架选件：。

SOLCON软启动器SOLCON软启动器RVS-DN390-400-230-230-3-9-L-S（询：15 8 0 5 0 6 12 13 李工）SOLCON软启动器RVS-DN390-400-230-230-3M-9-S SOLCON软启动器RVS-DN170-400-230-230-9-SSOLCON软启动器RVS-DN310-400-115-115-9-SSOLCON软启动器RVS-DN310-400-230-230-9-L-SSOLCON软启动器RVS-DN580-400-230-230-9-L-SSOLCON软启动器RVS-DN210-400-230-230-9-L-S林肯燃油泵81834P+F 传感器NBB10-30GM50-E2-V1U=10-30V J=200mALZC 电磁阀LZCLU02-P50-G1/4-024 0-50barTyco手报514.800.605.T奥莱尔冷却器B25THx60/1P-SC-S Ametek HDRZF2-400-225-NO-01TEMA接头7520 G3/4 WABCO气阀4630380120 CONVUM真空发生器CV-15HR帕斯菲达有机硫计量泵备件包DC2BYFP 71CFRAME序列号0412071158备件包型号NLK020FPAUTRONICA探头BDH-200AUTRONICAHC300PL（5861-011.5300）LORD 减震器AM003-15AM003-11AMETEK200887001阿普顿防爆插头?ECP-20232\AC240V\20A\ExdⅡBT4??AQUA-TERRA?快速接头SKF注油枪TLGH1VALTEK气动放大器3/4NPTS/N:076407.999.000 POCLAIN?马达MS18-2-121-A18-1320-0000派克油泵PV180R1K1TINMMC Burkert电磁阀???00041137 ALEMITE?黄油嘴1610-BL1688-B?PALL?滤芯?UE319AN20H捷斯曼?绞车手柄V62LPM-04Z+04Z-A140W1012981-010V62RM-04Z+04Z-A140?W1012981-020威伯科9700514240Orion电导电极013016MD参比电极210058摩菲振动开关VS2GEA 指示器NMR1-24VDC 10055291 EGONHARIG火焰探测器?FL/SS7510/35MIL AMETEK冷镜式水露点分析仪13-1200-L-N-2?滤芯??CHC08435? Computronic充电器?SM2?250A2409DIN CAT锌棒?6L2284?CAT电机油?D6A2C4? AMETEK?加热炉?70409SE锆管?75250SESPM?密封脂?P40230?PARKERF11-005-MB-CV-K209-000-0??5台?? REXNORD挡泥圈?4723097密封?2921417burkert8640?阀岛?707533?? ENCON洗眼器?PLS724\BS? EN?15154-4-2009SPECK泵?NP10/15-140斯贝克修理包?14.0732?阀组件?00.4687派克油泵?F1-081-R-000STALL插头\8579/12－406 STALL?63A?380V ?????????多林格滤芯?95-151AUTRONICA探头??BHH-500/N斯贝克?泵NP10/15-140C?左轴B类NOLAT插头 50304229DITTMER温度变送器 eng6965088351温度变送器 eng6965088350派克滤芯2020PM 2个丹尼逊T6CC0140081R01C111NTN轴承22336BD1进口铜调压阀不锈钢蓄能器配套CAT泵3CP1130CAT 泵3CP1130AUTRONICA 探测器116-5861-011.5300利达时接头26SFKK08MXX26KAKK08MPXskylotec安全带 G-0050-IW双勾绳 L-0399-1.5Climax800XH-K (Part # 3256666)泰科烟雾探测器MR601TEX HYDRAULIC液压泵P75B378BEOL22-11 SPECK泵P11/13-100调压阀UL221/100H蓄能器DS270/46PMA 温度控制器KS40-108-9090E-D51Puls-Power电源ML50.102VIKING救生衣PV9320（红色，带面罩）DOSEURO计量泵FM-50N-50/H--11 EGONHARIG火焰探测器FL/SS7510/35MIL Bosch 0460426449GIMAX灯管和灯罩BDMM36240E+HPH分析仪电极CPS11-2AA2ESACPS71D-7TB21CPS11D-7BA21AMETEK石英窗密封圈202813026博世雨刮支架3398100478 AMETEK密封圈42005JE帕斯菲达计量泵LPH6EB-PTC3-XXX 18.9LCLA-VAL阀100-023个单价687美元STARTWELL柴油机储能启动装置SDA077PVORTEX屏柜制冷器7515KOBELT7173-0003A帕斯菲达隔膜L0301300-THYKCT电磁阀BD520-BD0.15-0.8MPa 直流24V哈威SCP012RNDL4L35S0S000猫牌661D猫牌密封套装661DNUFLO流量计流量包9A-100003474 koppen&lethem传感器8372816。

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提供全球配件决解方案NUFLO EZ-IN 6" P/N 9A-100009536SEA MOB救生服HPS-31 XXLIEC滑环BXSN-8-PT168GIEC滑环BXSN-8-23PN-PT168威创5093BMST85SPM4寸凡尔体 P105741 P105751HDI?电池?E260MEDC手动报警按钮DB3UL048N2CNR + XB11UL02406RNDNNNRMEDC声光报警器BG2EDC1NRNOV接触器 30/57674-32-RTCANRIG供驱 1050E-500指示灯E09-1022-0101050E-500指示灯E09-1005-0101050E-500保险丝AGC-10AE33-1000-010德鲁克压力变送器PTX5072德国EUCHNER手持操纵盒HBA-079827SEA TEL8897B-21 序列889709090089 部件号125570-4EAO N35195 P/N:22-903.5 N35194 P/N:22-903.4 N35192 P/N:22-903.2 N35197 P/N:22-903.7DERRICK胶条3660-5-30VARCO 油压开关87542-1挪威AUTRONICA 烟感探头BHH-200阿波罗防水智能手动报警按钮58100-975MAR马丁戴克传感器E17-152CANRIG顶驱温度传感器N10101HDI传感器2400000-0630-02A-AAspm润滑油脂P13337CANRIG E01-1036-010(2HP.460V.1750RPM)BILLY PUGH救生衣WVO-50TIDELAND导航灯NAVIGATION LAMPML－300TIDELANDNAVIGATION/03－9100莫尔斯灯CB4060-0088雾笛及导航系统GB-2L流量计修理包 TK0200NUFLO EZ-IN 6" P/N 9A-100009536SEA MOB救生服HPS-31 XXLHPS-31 XLHPS-31 LHPS-31 MHPS-31 SVARCO电路板116199-7马丁戴克EDMS电池组CEDAR PARK 0617WO#:540480；PN:40219908;REVISION:A0001;EMP:RD3美国BEI配电器ZNA201-PADERRICK接线盒15010-01振动筛电缆护管总成1181-01-002VARCO TDS-8SA尼龙垫片 86871-25华高50008-14-C5D德瑞克14611-01VARCO 滤清器 30173216-KIT华高VARCO 顶驱冲管隔环（中部） 30123286喀麦隆阀 Z630-814-00哈里伯顿流量计 100012094修理包 100003472ORGA 灯泡 34T12075VARCO:1后扶正环螺栓 50008-12-5C2备钳钳牙座螺栓50108-12-C3上IBOP曲柄螺栓50008-14-C5D4曲柄螺栓锁片 1070525倾斜油缸销子本体端301721546倾斜油缸销子吊环端50512-C7销子螺帽 301195468倾斜油缸销子挡片1197319销子挡片螺栓5000408-C5D10小滑轮垫环 99168ORGA导航控制板15S50040 1016204 CODER-MK2(194雾笛）ORGA:L303SA-M-F20/2745313FML301SAORGA：34B00800L0100857LAMP 12V/3.0A/CC8/S11 P30S DERRICK:弹簧块：1129-00华高修包：661007008DERRICK:壳体：10523-00弯头：6431-00TESCO 720475威创航空插头：10MSPT1106M/D 拉力器：212371-1000VARCO 80450-6 80450-15DERRICK:TH48-30X0.5SS TH48-30X0.6SS马丁戴克：222573-001VARCO:30087708-02CANRIG顶驱指法灯：4017AC-122 E09-1022-010 威创压力传感器5705BFSBHTFTESCO速度传感器：1190007NOV机械密封648414308NOV填料函641116151 SWACO 除砂器旋流筒 96-21-1732 除泥器旋流筒锥筒 96-22-3123 除泥器旋流筒弯头 96-22-5824 除泥器旋流筒 96-22-2215 除砂器旋流筒弯头卡箍 50-15-0296 除砂器旋流筒弯头 50-30-860。

主机使用注意事项1、电极与主机连接后，若电极平时不用时，也不需将电极拔下，以防经常拔插容易损坏电极接口。

2、在测量模式下，压换行键可以在pH、mV、RmV（相对mV）、离子浓度、及空白档之间转换，相应的，屏幕右侧显示pH、mV、RmV、PPb符号。

3、在主机设置或标定过程中，压measure键即可回到测量状态。

四、钠电极的预处理及测量低钠水样时的注意事项注意：若电极头部附着有白色结晶物质，属于电极填充液渗透所致，用蒸馏水冲洗即可。

电极预处理：1、从电极盒中取出8611BNWP电极，轻轻拔下电极保护盖，并收藏好电极保护套作将来备用；手握电极，像甩体温计一样轻轻甩动电极，以排除电极体内部因运输过程形成的气泡，保证电极内的填充液正常连通。

2、用钠电极冲洗液冲洗电极体外的结晶。

3、打开电极上部的电极填充液孔（由软胶套覆盖着），参照图1，手握电极体，拇指放在连有电极线缆的电极盖上，朝电极头的方向压（不能拧）电极盖，排出电极体内的填充液。

14、取出一瓶900012的低钠电极填充液，拧下填充液瓶的黑色胶盖，取下红塞子，套上白色尖嘴盖，再掰直尖嘴，将填充液通过填充孔注入电极中，填充液的高度应为距填充孔1.5cm以内。

5、将电极浸泡在稀释100倍的841101电极储液中，至少3小时。

最好是过夜储存。

注意：①电极在使用过程中，参比填充液的填充孔须打开，电极不用时，填充孔再用所配的软胶套覆盖住。

②第一次使用该电极或是使用一段时间后，电极响应明显变迟缓，请将钠电极放入盛有适量的841113钠电极活化液的塑料烧杯中对电极进行活化（活化液的量以刚好浸没过电极球泡为宜），此活化时间一定不要超过60秒。

然后用钠电极冲洗液冲洗电极，最后将钠电极浸泡在钠电极储存液中15分钟后再开始使用。

低钠测量注意事项：在实验室敞开环境下测量低于1ppm的钠离子浓度样品时，常常容易受到外界环境的影响，例如：残余钠离子附着在玻璃烧杯和容器壁上，空气中，添加的试剂中，皮肤和不合格的去离子水中的钠离子的污染等等，从而造成校正电极时电极斜率降低，测量误差增大以及测量数据漂移，响应时间长等现象。

Thermo Scientific Orion 2100 Series Grab Sampler Installation Guide for the 2111XP Sodium AnalyzerROSS and the COIL trade dress are trademarks of Thermo Fisher Scientific Inc. U.S. patent 6,793,787. AQUAfast, Cahn, ionplus, KNIpHE, No Cal, ORION, perpHect, PerpHecT, PerpHecTion, pHISA, pHuture,Pure Water, Sage, Sensing the Future, SensorLink, ROSS, ROSS Ultra, Sure-Flow, Titrator PLUS and TURBO2 are registered trademarks of Thermo Fisher.1-888-pHAX-ION, A+, All in One, Aplus, AQUAsnap, AssuredAccuracy, AUTO-BAR, AUTO-CAL, AUTO DISPENSER, Auto-ID, AUTO-LOG, AUTO-READ, AUTO-STIR, Auto-T est, BOD AutoEZ, Cable-Free, CERTI-CAL, CISA, DataCOLLECT, DataPLUS, digital LogR, DirectCal, DuraProbe, Environmental Product Authority, Extra Easy/Extra Value, FAST QC, GAP, GLPcal, GLPcheck, GLPdoc, ISEasy, KAP, LabConnect, LogR, Low Maintenance T riode, Minimum Stir Requirement, MSR, NISS, One-T ouch, One-T ouch Calibration,One-Touch Measurement, Optimum Results, Orion Star, Pentrode, pHuture MMS, pHuture Pentrode, pHuture Quatrode, pHuture T riode, Quatrode, QuiKcheK, rf link, ROSS Resolution, SAOB, SMART AVERAGING, Smart CheK, SMART STABILITY, Stacked, Star Navigator 21, Stat Face, The Enhanced Lab, ThermaSense, T riode, TRIUMpH, Unbreakable pH, Universal Access are trademarks of Thermo Fisher.© 2009 Thermo Fisher Scientific Inc. All rights reserved. All trademarks are the property of Thermo Fisher Scientific Inc. and its subsidiaries.The specifications, descriptions, drawings, ordering information and part numbers within this document are subject to change without notice.This publication supersedes all previous publications on this subject.Table of ContentsGrab Sampler nstallation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1General Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1Air Pump Shutoff and Start-up Procedure . . . . . . . . . . . . . . . . . . . . . . . . .1Required Tools . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2Grab Sampler Installation Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Grab Sampler Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11Grab Sampler Measurement Procedure . . . . . . . . . . . . . . . . . . . . . . . . . .11Returning the Analyzer to Process Sample Measurement . . . . . . . . . . . . .12Customer Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13Servicing the Particulate Filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13Assistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14Chapter 1Chapter 3Chapter 2Chapter 1 Grab Sampler nstallationThe grab sampler allows for rapid sample measurement where no online instrumentation is present and provides troubleshooting to validate readings without disturbing process operations . Operators can temporarily interrupt the flow of process sample to the 2111XP sodium analyzer and substitute it for a sample coming from the grab sampler . In this way, samples from other parts of the plant or validation and calibration standards can be analyzed .Warning: T urn off the air pump prior to removing reagent bottle . The air pump will spatter caustic reagent outward as bottle is removed . Wear rubber gloves and safety goggles to avoid possible injury from reagent residues in the system .1 . T o access the air pump setting, press .2 . Press / to scroll though the setup parameters until TEST appears in marquee window .3 . Press to access the TEST menu .4 . Press / to scroll through the TEST menu until AIr appears in the main display .5 . Press .6 . Press / to toggle between On and OFF settings for the air pump power . To turn the air pump off, select the OFF setting . T o turn the air pump on, select the On setting . Changing the air pump setting to On or OFF will be indicated by a click sound .7 . Pressto accept the setting and return to the TEST menu .8 . Press to return to the measure mode .General nformation Air Pump Shutoff and Start-up ProcedureFigure 12111XP Analyzer ComponentsScrolling MarqueeLCD DisplayMounting HoleKeypad Flow Cell ReservoirSiphon TubeFlow Cell BlockInlet ValveReagent Bottle Adapter Assembly Pressure Regulator Flow MeterCalibration PortReference Filling Solution Restructor Tube AssemblyAir PumpBypass/Needle ValveInlet FilterReagent ManifoldDiverter Valve Diffusion Tubing AssemblyReagent Bottle• Phillips head screwdriver• Adjustable wrench• T ubing cutterRequired ToolsWarning: The reagent is hazardous . Use protective glasses and gloves whenworking with the reagent . Refer to the reagent bottle label and MSDS for precautions and work in a well ventilated area .1 . Shut down the analyzer .a . T urn off the air pump . See the Air Pump Shutoff and Start-up Procedure section .b . Disconnect the power to the analyzer .c . S hut off the process pressure to the analyzer . The process sample supply must be shut off upstream of the analyzer . Do not just close the inlet valve on the analyzer .2 . Remove the reagent bottle from the analyzer and set it aside .a . L oosen the thumb nut that secures the bottle to the manifold block and slide the bottle assembly off the mounting stud .b . N ote that some process sample may drip out of the manifold when you remove the reagent bottle .c . S et the reagent bottle aside for later use . The reagent bottle should be stored in a well ventilated area .3 . Disconnect the process sample feed line to the inlet valve on the analyzer .4 . Remove the regulator bracket .a . L oosen and remove the ring nut that holds the pressure regulator to the regulator bracket .b . R emove the two screws that secure the bracket to the analyzer panel .c . S lide the bracket off the regulator . The regulator will be held in position by the system plumbing . d . D o not discard the loose components – they will be reassembled later during the installation process .5 . Disconnect the tube at the inlet of the pressure regulator . a . U nscrew the ferrule nut on the pressure regulator inlet .Grab Sampler nstallation Procedure6 . Remove the inlet valve and bypass valve assemblies from the analyzer .a . U nscrew the ferrule nut on the pressure regulator inlet anddisconnect the sample tube .b . R emove the two screws that secure the inlet valve bracket to theanalyzer panel .c . I f the unit includes a bracket connected to the bypass needle valve,remove the two screws that secure the bracket to the analyzer panel .d . R emove the four screws that secure the bypass valve and particulatefilter to the analyzer panel .e . R emove the inlet valve and bypass valve assemblies from theanalyzer panel .7 . Assemble the new valve module to the analyzer . See Figure 2 .a . P lace the valve module in position on the analyzer panel and secureit with four mounting screws .b . S lide the supplied ferrule nut onto the free end of the black tubingon the new valve assembly .c . I nsert the free end of the black tubing into the inlet port on thepressure regulator . Verify that the tubing fits properly – it shouldbottom out against a stop in the regulator inlet without bucklingor kinking . T rim the tubing if necessary . Tighten the ferrule nut tosecure the tube to the regulator .d . C onnect the inlet line to the empty leg of the quick-connect elbowfitting on the 2-way valve included in the valve module . Insert theprocess tubing until it bottoms out against a stop in the fitting .8 . Re-assemble the regulator bracket .a . S lide the bracket over the pressure regulator .b . S ecure the bracket to the analyzer panel with two mounting screws .c . R eplace the ring nut onto the pressure regulator and tighten itagainst the regulator bracket .Figure 2 2111XP Grab Sampler Valve Module Mounting HolesGrab Sampler Mounting HolesGrab SamplerMounting BracketFigure 32111XP Grab Sampler Mounting Bracket Installation9 . Assemble the grab sampler mounting bracket to the analyzer panel .See Figure 3 .a . D isassemble the restrictor tubing from the flow meter . Loosen thecable clip that secures the restrictor tubing to the analyzer panel andloosen the compression fitting that secures the restrictor tubing tothe top of the flow meter .b . R emove the large cable clamp that secures the various drain lines tothe analyzer panel . Remove the mounting screw and set the clampaside for later use .c . U nscrew the two bolts that secure the flow cell assembly to theanalyzer panel . Support the flow cell assembly so that it does notfall .d . P lace the grab sampler mounting bracket in position between theanalyzer panel and the flow cell assembly . The mounting slots onthe bracket should align with the mounting holes on the flow cell .e . S ecure the flow cell assembly and mounting bracket by re-assembling the two mounting bolts .f . F eed the restrictor tubing through the grab sampler mountingbracket . Re-assemble the free end of the restrictor tubing to the flowmeter and secure the tubing to the analyzer panel with the smallcable clip .g . T hread a mounting screw into the lower-right slot in the grabsampler mounting bracket and secure it to the analyzer panel .h . R e-assemble the large cable clamp through the lower-left slot on thegrab sampler mounting bracket .i . R e-secure the various drain lines to the large cable clamp .j . A ssemble the clear drain line included with the valve module . Insert one end of the tube into the bypass elbow fitting and tighten thecompression nut . Route the tube under the reagent bottle manifold,through the large cable clamp, and down to the system drain .10 . Mount the grab sampler assembly to the analyzer .a . L oosely assemble four #10-24 mounting screws to the threadedholes in the grab sampler mounting bracket .b . R emove the sample bottle from the grab sampler and fit the unitonto the mounting screws on the bracket . Tighten the screws tosecure the unit .c . S nap the sample bottle back into the sampler housing .d . R oute the sample line from the bottle under the reagent bottlemanifold and over to the compression-style elbow connected to the3-way valve on the new valve module . Tighten the ferrule nut onthe elbow to secure the tube .e . R oute the loose tube from the bottom right of the grab samplemodule to the system drain .f . C onnect the power supply to the power jack on the grab sampler .11 . Re-assemble the reagent bottle to the analyzer .a . C heck to be sure that none of the three O-rings on the reagentmanifold block have been lost .b . A ssemble the reagent bottle onto the mounting stud on themanifold block and secure it with the thumb nut .12 . Return the analyzer to service .a . R econnect the power to the analyzer .b . O pen the process sample line to the analyzer assembly .c . T urn on the air pump . See the Air Pump Shutoff and Start-upProcedure section .d . P lace the various valves in the process sample position . The 2-wayinlet valve should be rotated counterclockwise so that it points tothe left . The 3-way sample valve should be rotated counterclockwiseso that it points to the right .e . A djust the pressure regulator to maintain the correct process flow .f . A djust the bypass valve to deliver the desired amount of bypass flowto drain .g . V erify that the various plumbing connections made during theinstallation are sealing properly . If a leak is detected, close the inletvalve and tighten the various fittings as needed .Figure 2111XP Grab SamplerComponentsFigure Components for Operating the Grab SamplerInlet Valve – ASample Valve – BParticulate Filter – CBypass Valve – DPressure Regulator Knob – EFlow Meter – F A B C D E FChapter 2 Grab Sampler MeasurementRefer to Figure 5 for the location of the components identified in the following procedure .1 . Verify that the system is configured to take a standard measurement . a . T he diverter valve on the flow cell should be pulled out .2 . Prepare the sample bottle .a . R inse the bottle with deionized water and then with a small amount of the desired sample . Discard the rinse water .3 . Load the sample .a . F ill the bottle with the sample .b . R eplace the cover on the bottle and load the bottle into the grab sampler .4 . Start the grab sampler .a . T urn the grab sampler power switch on . b . A llow the pump to run for 10 to 30 seconds to build pressure .5 . T urn the sample valve (B ) to the grab sample position .a . T urn the knob on the sample valve clockwise until it points to the left . b . T he process stream will still be open to the particulate filter (C ) and will continue to flow through the bypass valve (D ) . This will not interfere with the grab sample measurement and insures that the process stream is fresh when the grab sample measurement is complete .c . A djust the pressure regulator if required (see step 6) .6 . Adjust the knob on the pressure regulator (E ) so the ball in the flow meter (F ) indicates the correct flow rate . The flow rate should be 40 mL/minute for the Ammonia and DIPA Application Packages and 25 mL/minute for the Cation/High Acid Application Package . a . P ull the knob out to unlock the setting and adjust the flow rate .Grab Sampler Measurement Procedureb . T urn the knob clockwise to increase the flow rate .c . T urn the knob counterclockwise to decrease the flow rate .d . P ush the knob in to lock the setting .7 . Wait for the system to stabilize before taking the grab sample measurement .a . T he system will take time to flush any remaining process sample before the grab sample measurement stabilizes . The specific time required will depend on the sodium content of the residual process stream and the grab sample .Refer to Figure 5 for the location of the components identified in the following procedure .1 . After the grab sample measurement is complete, return the sample valve (B ) to the process setting .a . T urn the knob on the sample valve counterclockwise until it points to the right . b . A djust the pressure regulator if required (see step 2) .2 . Adjust the knob on the pressure regulator (E ) so the ball in the flow meter (F ) indicates the correct flow rate . The flow rate should be 40 mL/minute for the Ammonia and DIPA Application Packages and 25 mL/minute for the Cation/High Acid Application Package .a . P ull the knob out to unlock the setting and adjust the flow rate .b . T urn the knob clockwise to increase the flow rate .c . T urn the knob counterclockwise to decrease the flow rate .d . P ush the knob in to lock the setting .3 . Vent any residual pressure in the grab sampler system .a . P ress the pressure relief button on the grab sampler .4 . Rinse out the sample bottle .a . R emove the sample bottle from the system and discard any remaining sample .b . R inse the inside of the bottle with clean, deionized water and allow it to dry .c . R eplace the bottle in the grab sampler .Returning the Analyzer to Process Sample MeasurementChapter 3 Customer ServicesRefer to Figure 5 for the location of the components identified in the following procedure .1 . Close the inlet valve (A ) to shut-off process flow to the system .a . T urn the knob on the inlet valve clockwise until it points upward .2 . Remove the cap on the particulate filter .a . L oosen the panel nut on the bypass valve (D ) .b . U nscrew the cap on the particulate filter (C ) .c . S lide the bypass valve up into the top of its mounting slot and pivot it to allow access to the interior of the particulate filter .3 . Service the filter element .a . R emove the filter element from the particulate filter (C ) .b . C lean the filter element . The cleaning agent should be compatible with the 316 stainless steel filter element .4 . Replace the filter element in the filter housing .a . I nstall the filter element with the open end facing down .5 . Re-assemble the particulate filter cap (C ) .a . S crew the filter cap back onto the filter body .b . T ighten the panel nut on the bypass valve (D ) .6 . Re-open the inlet valve (A ) to restore process flow to the system .a . T urn the knob on the inlet valve counterclockwise until it points to the left .Servicing the Particulate FilterAfter troubleshooting all components of your measurement system, contact Technical Support . Within the United States call 1 .800 .225 .1480 and outside the United States call 978 .232 .6000 or fax 978 .232 .6031 . In Europe, the Middle East and Africa, contact your local authorized dealer . For the most current contact information, visit www .thermo .com/contactwater .For the latest application and technical resources for Thermo Scientific Orion products, visit www .thermo .com/waterapps .For the most current warranty information, visitwww .thermo .com/processwater .21GRABXP Grab sampler / FAST QC ™ upgrade module to fit existing 2111XP , 2111XPEN, 2110XP , 2110XPEN, 2117XP , 2117XPEN, 2120XP and 2120XPEN analyzers(Not currently available for use with 2109XP or 2109XPEN fluoride analyzers)21GRABLLLow level sodium grab sampler / FAST QC ™ upgrade module to fit existing 2111LL and 2111LLEN analyzers 21GRBTReplacement bottle for 2100 series grab sampler 21GRPAAir pump replacement kit for 2100 series grab sampler 21GRFK Fittings kit for 2100 series grab samplerAssistance Warranty Ordering nformationProcess Water InstrumentsNorth America 166 Cummings Center Beverly, MA 01915 USA Toll Free: 1-800-225-1480 Tel: 1-978-232-6000 Dom. Fax: 1-978-232-6015 Int’l Fax: 978-232-6031Europe P .O. Box 254, 3860 AG Nijkerk Wallerstraat 125K, 3862 CN Nijkerk, Netherlands Tel: (31) 033-2463887 Fax: (31) 033-2460832Asia Pacific Blk 55, Ayer Rajah Crescent #04-16/24, Singapore 139949 Tel: 65-6778-6876 Fax: 65-6773-0836/processwater© 2009 Thermo Fisher Scientific Inc. All rights reserved.。

钠参比电极一、引言钠参比电极是一种重要的电化学传感器，广泛应用于化学分析、环境监测、生物医学等领域。

本文将从以下几个方面对钠参比电极进行详细介绍。

二、钠参比电极的原理钠参比电极是一种基于离子选择性传感器的电化学传感器，其原理基于纳离子在溶液中的活度系数与纳离子浓度之间的关系。

该传感器由一个纳离子选择性电极和一个参比电极组成，两者通过一个外部电路相连。

当纳离子选择性膜暴露在含有纳离子的溶液中时，只有纳离子可以通过膜进入内部。

此时，纳离子选择性膜内外形成了不同浓度的纳离子溶液，产生了内外浓度差。

根据化学势平衡原理，这种浓度差会导致内部和外部之间形成一个静电势差。

这个静电势差可以被测量，并用来计算溶液中的纳离子浓度。

三、钠参比电极的结构1. 纳离子选择性膜纳离子选择性膜是钠参比电极的核心部分，它是一种特殊的聚合物材料，可以选择性地吸附纳离子。

该膜通常涂覆在玻璃或塑料管上，并与电极连接。

2. 参比电极参比电极用于提供一个稳定的基准电位，在测量过程中保持不变。

常见的参比电极包括银/氯化银电极、银/硫酸铜电极等。

3. 外壳外壳通常由塑料或金属制成，用于保护纳离子选择性膜和参比电极，并将它们连接起来。

四、钠参比电极的优点和缺点1. 优点：（1）高灵敏度：钠参比电极对纳离子浓度变化非常敏感，可以快速响应。

（2）高精度：钠参比电极具有较高的测量精度，可以达到ppm级别。

（3）便携式：由于其小巧轻便，钠参比电极非常适合在实验室外进行现场检测。

2. 缺点：（1）易受干扰：钠参比电极对温度、pH值等环境因素的变化非常敏感，容易受到干扰。

（2）寿命短：由于纳离子选择性膜容易受到污染和磨损，钠参比电极的使用寿命较短。

五、钠参比电极的应用1. 化学分析钠参比电极可以用于测量纳离子浓度，在化学分析中起着重要作用。

例如，在食品行业中，可以使用钠参比电极检测盐分含量。

2. 环境监测钠参比电极可以用于监测水体中的纳离子浓度，帮助环保部门及时发现水体污染问题。