Teledyne微燃料电池原理:
Teledyne氧传感器是一个微量氧燃料电池,该电池由TAI公司设计和制造。是密封的、一次性的电化学传感器。
微燃料电池的反应构件有:一个阴、一个阳以及浸泡它们的水溶KOH电解液,浓度为15%。电池将化学反应的能量转换为外部电子电路的电流。它的原理类似于一个蓄电池。但是,微-燃料电池与蓄电池在工作原理上有一个很大的不同:在蓄电池中,所有的反应物都是在电池内的;而微燃料电池中,其中的一个反应物(氧)来自于设备外部,即一个被连续分析的样气。因此可以说,微-燃料电池是蓄电池与一个真正燃料电池的混血儿。(在一个真正的燃料电池中,所有的反应物都储存在设备外。)
微燃料电池,氧传感器
| 产品编号(PART No) |
类型(CLASS) |
用途(Application) |
| C06689-A2C |
A-2C |
测量酸性气体或高浓度CO2中的氧浓度%含量 |
| C06689-A5 |
A-5 |
测量常规混合气体或高浓度CO2中的氧浓度%含量 |
| C06689-B1 |
B-1 |
测量常规混合气体中的氧浓度%含量;如:烟气 |
| C06689-B2C |
B-2C |
测量H2、He、乙烯等气体中无CO2的低浓度氧ppm含量 |
| C06689-B2CXL |
B-2CXL |
测量H2、He、乙烯等气体中无CO2的超低浓度氧ppm含量 |
| C06689-B3 |
B-3 |
可用于测量烟气中的氧浓度%含量;寿命优于B-1 |
| C06689-L2C |
L-2C |
测量常规气体中的低浓度氧ppm含量 |
| C06689-L2CL |
L-2CL |
测量以CO2和H2混合背景的惰性气体中的氧浓度ppm含量 |
| C06689-Z2C |
Z-2C |
可用于测量烟气中的低浓度氧ppm含量 |
| C06689-E2 |
E-2 |
测量空气分离-氮液化工艺中,氮中氧低浓氧含量;长寿命型 |
| B71875 |
INSTA TRACE |
测量酸性气体或碳烃类气体中超低浓度氧ppm含量 |
| B73106 |
INSTA TRACE CO2 |
测量酸性气体中以CO2为背景气体的超低浓度氧ppm含量 |
| 产品编号(PART No) |
类型(CLASS) |
用途(Application) |
| C06689-A2C |
A-2C |
测量酸性气体或高浓度CO2中的氧浓度%含量 |
| C06689-A5 |
A-5 |
测量常规混合气体或高浓度CO2中的氧浓度%含量 |
| C06689-B1 |
B-1 |
测量常规混合气体中的氧浓度%含量;如:烟气 |
| C06689-B2C |
B-2C |
测量H2、He、乙烯等气体中无CO2的低浓度氧ppm含量 |
| C06689-B2CXL |
B-2CXL |
测量H2、He、乙烯等气体中无CO2的超低浓度氧ppm含量 |
| C06689-B3 |
B-3 |
可用于测量烟气中的氧浓度%含量;寿命优于B-1 |
| C06689-L2C |
L-2C |
测量常规气体中的低浓度氧ppm含量 |
| C06689-L2CL |
L-2CL |
测量以CO2和H2混合背景的惰性气体中的氧浓度ppm含量 |
| C06689-Z2C |
Z-2C |
可用于测量烟气中的低浓度氧ppm含量 |
| C06689-E2 |
E-2 |
测量空气分离-氮液化工艺中,氮中氧低浓氧含量;长寿命型 |
| B71875 |
INSTA TRACE |
测量酸性气体或碳烃类气体中超低浓度氧ppm含量 |
| B73106 |
INSTA TRACE CO2 |
测量酸性气体中以CO2为背景气体的超低浓度氧ppm含量 |
产品编号(PART No)
类型(CLASS)
用途(Application)
C06689-A2C
A-2C
测量酸性气体或高浓度CO2中的氧浓度%含量
C06689-A5
A-5
测量常规混合气体或高浓度CO2中的氧浓度%含量
C06689-B1
B-1
测量常规混合气体中的氧浓度%含量;如:烟气
C06689-B2C
B-2C
测量H2、He、乙烯等气体中无CO2的低浓度氧ppm含量
C06689-B2CXL
B-2CXL
测量H2、He、乙烯等气体中无CO2的超低浓度氧ppm含量
C06689-B3
B-3
可用于测量烟气中的氧浓度%含量;寿命优于B-1
C06689-L2C
L-2C
测量常规气体中的低浓度氧ppm含量
C06689-L2CL
L-2CL
测量以CO2和H2混合背景的惰性气体中的氧浓度ppm含量
C06689-Z2C
Z-2C
可用于测量烟气中的低浓度氧ppm含量
C06689-E2
E-2
测量空气分离-氮液化工艺中,氮中氧低浓氧含量;长寿命型
B71875
INSTA TRACE
测量酸性气体或碳烃类气体中超低浓度氧ppm含量
B73106
INSTA TRACE CO2
测量酸性气体中以CO2为背景气体的超低浓度氧ppm含量
Application overview
RANGE
BACKGROUND GAS
TELEDYNE INSTRUMENTS
SENSOR OPTIONS
Trace
Less than 1000 ppm CO2 in the background gas
311, 316, 317, 318, 3160
B-2C
3000T series
L-2C
More than 1000 ppm up to CO2 in the background gas
All trace oxygen instruments
A-2C
Note: To use the A-2C or B-2C sensor in a 3000T series instrument, adapter part number B66378 is required.
Note: The L-2C sensor cannot be used in our older analog models (300 series).
Percent
Less than 1000 ppm CO2 in the background gas
311P, 320A / P / BRC, 326, 327, 328
B-1, B-3 standard;
C-3 for high concentration of O2
More than 1000 ppm up to CO2 in the background gas
A-5
Selecting a Teledyne Oxygen Sensor - Detail
CLASS
(click for spec control drwg.)
PART No.
APPLICATION
COMMENTS
A-1
oxygen sensor
C6689-A1
Ultra-fast response (90% in less than 4 seconds) in the percent oxygen region.
Use only when B-1 response time is insufficient.
A-2C
oxygen sensor
C6689-A2C
Used for trace O2 measurements in CO2 containing backgrounds (0.1- CO2). CO2 must be present.
Use where acid gases are present (CO2, HCl, HCN, etc). CO2 must be present.
A-2CXL
oxygen sensor
B74033-A2CXL
Specially qualified A2C sensor to operate in XL model analyzers. Low range limit is 0-1 ppm.
Use where acid gases are present (CO2, HCl, HCN, etc). CO2 must be present.
A-2Cl: Obsolete, use A-2C
A-3: Obsolete, use A-5
A-5
oxygen sensor
C6689-A5
Intermittent or continuous monitoring of percent O2 in gas mixtures containing 0- CO2. 90% response is time is 45 seconds.
Has more tolerance to exposure to air than A-3. No restrictions on CO2 concentration.
B-1
oxygen sensor
C6689-B1
General purpose percent oxygen analysis where fast response is desired (90% in less than 7 seconds).
Use B-3 or C-3 where longer life is required and response time is relatively unimportant. May be used to spot check flue gas.
B-2C
oxygen sensor
C6689-B2C
General purpose trace O2 analysis for use in inert gas and hydrocarbon streams. Low range limit is 0-10 ppm.
May be used in CO2 free gas streams containing highly mobile gases such as H2, He and ethylene.
INSTA TRACE
oxygen sensor
B71875
Special patented construction provides rapid recovery, during initial cell installation, to low PPM levels by reducing the recovery period from several hours to just minutes. Low range limit is 0-10 ppm.
Used for trace O2 analysis in inert gas and hydrocarbon streams.
B-2CXL
oxygen sensor
C6689-B2CXL
Specially qualified B-2C sensor to operate in XL model analyzers. Low range limit is 0-1 ppm.
May be used in CO2 free gas streams containing highly mobile gases such as H2, He and ethylene.
B-3
oxygen sensor
C6689-B3
Percent O2 analysis, best compromise between long life and fast response.
May be used to spot check flue gas.
B-4C
oxygen sensor
C14613-B4C
Trace O2 cell specifically designed for the Model 317EXI.
Same performance as the B-2.
B-5
oxygen sensor
C45091-B5
Special application cell (non-standard) where long life and moderately fast response are required; B-5 has a factor of 3x the life of a B-3.
Requires 3x the amplifier gain of the B-3. Expected life is 36 months in air.
B-5F
oxygen sensor
C45091-B5F
Special application cell (non-standard) where long life and moderately fast response, in the presence of CO2, are required.
Uses Type F (acid electrolyte). Requires higher amplifier gain than normal. 90% response time is 13 seconds. Expected life in air is 6 months.
B-7
oxygen sensor
C45091-B7
Special application cell (non-standard) where fast response is required; the B-7 has a factor of 3x the life of a B-1 cell.
Requires 3x the amplifier gain of the B-1. Expected life in air is 24 months.
B-7F
oxygen sensor
C45091-B7F
Special application cell (non-standard) where moderate life and fast response, in the presence of CO2, are required.
Requires higher amplifier gain than normal. 90% response time is 7 seconds. Expected life in air is 3 months.
C-1
oxygen sensor
C6689-C1
Rarely used. Schematic for reference only.
免责声明:以上所展示的[C06689-B1 Teledyne燃料电池]信息由会员[成都聚飞科技有限责任公司]自行提供,内容的真实性、准确性和合法性由发布会员负责。
