GE XMTC-6C-11热导率变送器是一款高性能的仪器仪表产品

一、产品概述

GE XMTC-6C-11热导率变送器由GE公司制造，具备出色的测量精度和稳定性，能够准确测量二元混合气体中一种成分的含量。它广泛应用于各种工业领域，如冶金、电力、石油化工、化学工业等，用于监控和分析气体中的特定组分。

二、主要特点

高精度测量：GE XMTC-6C-11热导率变送器采用先进的热导传感技术，能够实现对气体组分的高精度测量。

稳定可靠：该变送器设计坚固，能够在恶劣的工业环境中稳定运行，提供长期可靠的气体分析数据。

易于安装和维护：GE XMTC-6C-11热导率变送器结构紧凑，安装方便，且易于维护和校准，降低了用户的运营成本。

多种量程可选：该变送器提供多种量程选择，能够满足不同工业领域对气体组分测量的需求。

三、技术规格

测量原理：基于热导率差异原理，通过测量样品气体与参考气体之间的热导率差异来推算气体组分含量。

测量范围：可根据用户需求定制，如0~1%、0~2%、0~5%、0~10%、0~25%、0~50%、0~100%等量程。

输出信号：提供4~20mA的线性输出信号，方便与各种控制系统和记录仪连接。

电源要求：需要24VDC电源供电，最大电流为1.2A。

操作温度：标准操作温度为55°C（131°F），也可选择70°C（158°F）的操作温度。

材质与防爆等级：外壳采用不锈钢材质，具有NEMA 4X/IP66的防风雨等级和Class I, Division 1, Groups A, B, C & D的防爆等级。

四、应用领域

冶金工业：用于监测氮气中的氢气含量。

电力行业：用于监测发电机冷却系统中的氢气含量。

石油化工：用于监测碳氢化合物中的氢气含量。

化学工业：用于监测合成氨气体和甲醇合成气体中的氢气含量。

甲烷工业：用于监测甲烷中的二氧化碳和氮气含量。

沼气工业：用于监测沼气中的二氧化碳和甲烷含量。

气体生产行业：用于监控氩气、氢气、氮气和氦气的纯度。

五、注意事项

在使用GE XMTC-6C-11热导率变送器时，应确保取样系统的清洁和代表性，以避免测量误差。

定期校准和维护变送器，以确保其测量精度和稳定性。

在选择量程时，应根据实际应用需求和气体组分含量范围进行合理选择。

The GE XMTC-6C-11 thermal conductivity transmitter is a high-performance instrumentation product

1、 Product Overview

The GE XMTC-6C-11 thermal conductivity transmitter is manufactured by GE and has excellent measurement accuracy and stability, capable of accurately measuring the content of a component in binary mixed gases. It is widely used in various industrial fields, such as metallurgy, power, petrochemicals, chemical industry, etc., for monitoring and analyzing specific components in gases.

2、 Main features

High precision measurement: The GE XMTC-6C-11 thermal conductivity transmitter adopts advanced thermal conductivity sensing technology, which can achieve high-precision measurement of gas components.

Stable and reliable: The transmitter is designed to be sturdy and can operate stably in harsh industrial environments, providing long-term and reliable gas analysis data.

Easy to install and maintain: The GE XMTC-6C-11 thermal conductivity transmitter has a compact structure, is easy to install, and is easy to maintain and calibrate, reducing users' operating costs.

Multiple range options: This transmitter offers multiple range options to meet the needs of gas component measurement in different industrial fields.

3、 Technical specifications

Measurement principle: Based on the principle of thermal conductivity difference, the gas component content is calculated by measuring the thermal conductivity difference between the sample gas and the reference gas.

Measurement range: can be customized according to user needs, such as 0~1%, 0~2%, 0~5%, 0~10%, 0~25%, 0~50%, 0~100% and other ranges.

Output signal: Provides a 4-20mA linear output signal, making it easy to connect with various control systems and recorders.

Power requirements: 24VDC power supply is required, with a maximum current of 1.2A.

Operating temperature: The standard operating temperature is 55 ° C (131 ° F), and an operating temperature of 70 ° C (158 ° F) can also be selected.

Material and Explosion proof Rating: The casing is made of stainless steel and has a NEMA 4X/IP66 weatherproof rating and Class I, Explosion proof rating for Division 1, Groups A, B, C&D.

4、 Application Fields

Metallurgical industry: used to monitor the hydrogen content in nitrogen gas.

Power industry: used to monitor the hydrogen content in the cooling system of generators.

Petrochemical industry: used to monitor the hydrogen content in hydrocarbons.

Chemical industry: used to monitor the hydrogen content in synthetic ammonia gas and methanol synthesis gas.

Methane industry: used to monitor the carbon dioxide and nitrogen content in methane.

Biogas industry: used to monitor the carbon dioxide and methane content in biogas.

Gas production industry: used to monitor the purity of argon, hydrogen, nitrogen, and helium gases.

5、 Precautions

When using the GE XMTC-6C-11 thermal conductivity transmitter, it is important to ensure the cleanliness and representativeness of the sampling system to avoid measurement errors.

Regularly calibrate and maintain the transmitter to ensure its measurement accuracy and stability.

When selecting the range, it should be reasonably chosen according to the actual application requirements and the range of gas component content.

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