恩德斯豪斯数字式pH/ORP组合电极Memosens CPS16E
产品参数测量原理玻璃电极应用Long-term monitoring and limit control in processes with stable process conditions• Chemical processes• Pulp and paper industry• Waste incinerators and gas scrubbers• Mining• Wastewater特点Combination of pH and ORP electrode for standard applications in process technology and environmental engineeringPoison-resistant reference with ion trap测量范围ORP: –1 500 to 1 500 mVApplication A• pH: 1 to 12Application B• pH: 0 to 14测量原理Gel compact electrode with PTFE ring-junction and with ion trapPt-disc as additional ORP elementrH measurement and control of the reference impedance设计All shaft lengths with temperature sensorAdvanced gel technology材质Sensor shaft: Glass to suit processpH membrane glass: Type A, BMetal lead: Ag/AgClOpen aperture: PFTE junction, sterilizableORP measuring element: PlatinumO-ring: FKMProcess coupling: PPS fiber-glass reinforcedNameplate: Ceramic metal oxide外形尺寸Diameter: 12 mm (0.47 inch)Shaft lengths: 120, 225 and 360 mm(4.72, 8.86, 14.17 and 16.73 inch)过程温度Application A: –15 to 80 °C (5 to 176 °F)Application B: 0 to 135 °C (32 to 275 °F)过程压力0.8 to 17 bar (11.6 to 246,5 psi) absolute温度传感器NTC 30k防爆认证With ATEX, IECEx, CSA C/US, NEPSI, Japan Ex and INMETRO approvals for use inhazardous areas Zone 0, Zone 1 and Zone 2连接Inductive, digital connection head with Memosens 2.0 technology防护等级IP68 应用领域Memosens CPS16E能够同时进行pH和ORP测量,适应于稳定工况应用。电极内置pH和ORP测量部件,能够提供丰富过程信息,是严格过程控制的坚实基础。Memosens CPS16E采用Memosens 2.0数字技术,支持扩展数据存储,服务预维护和IIoT工业物联网。pH/ORP电极不受潮湿环境的影响,允许实验室标定,简化例行操作,实现更高过程完整性。在稳定工况条件下进行长期过程监测或限值监测:- 化工行业- 纸浆和造纸行业- 发电厂(例如烟气净化)- 垃圾焚烧厂- 采矿行业- 污水行业水处理:- 饮用水- 冷却水- 井水通过ATEX、IECEx、CSA C/US、NEPSI、JPN、INMETRO认证,可以在防爆0区、1区和2区中使用。优势Memosens 2.0支持扩展储存单元,保存标定参数和过程参数,能够更好地进行趋势识别,为未来实施预维护和改进IIoT工业物联网服务提供完美的基础。附加铂电极持续监测参比阻抗,是电极质量的可靠保障。同时测量pH、ORP和rH值(在rH模式中),能够提供丰富过程信息,是严格过程控制的坚实基础。坚固耐用,大面积环状PTFE隔膜,参比电极带离子捕捉阱,有效防止电极中毒。满足严苛工况应用:过程玻璃耐受强碱性介质腐蚀,在压力不超过17 bar (246 psi)的工况下稳定测量。更低使用成本:实验室标定和现场快速更换电极,实现最短生产中断时间。实验室再生电极,延长了传感器的使用寿命。采用非接触式数字信号传输方式,测量结果始终可靠,保证高过程安全性 。成功案例监测乳液的聚合反应通过反应结束检测和动力学控制实现工艺优化半间歇聚合工艺拉曼分析仪采用Kaiser拉曼技术,用于监测和控制半间歇聚合工艺法国Grand Belfort地区安装的饮用水分析面板安装饮用水分析面板,监测各类饮用水水质参数