Honeywell 2108B2003N Optima Plus Combustible Gas Detector

Honeywell 2108B2003N Optima Plus Combustible Gas Detector is a combustible gas detector produced by Honeywell, with the following features, working principles, technical parameters and application scenarios:

Features and advantages

High-precision detection: Using advanced sensing technology, it can accurately detect changes in the concentration of various combustible gases and provide reliable data for gas safety monitoring in industrial sites.

Quick response: With fast response capability, it can detect abnormal gas concentrations in a short time and issue an alarm in time, which helps to respond to potential gas leakage hazards in a timely manner.

High reliability: It has a sturdy and durable shell, good dustproof, waterproof and impact resistance, and can adapt to harsh industrial environments. At the same time, it has stable performance and low false alarm rate.

Multiple gas detection: It can detect a variety of combustible gases, such as methane, propane, etc., to meet the needs of different industrial scenarios for multiple combustible gas detection.

Easy to maintain: The structure and function are designed to be easy to maintain, the sensor is easy to replace, and the equipment has self-diagnosis and fault prompt functions to reduce maintenance costs and time.

Working principle

The catalytic combustion principle is usually adopted. The catalytic combustion sensor in the detector consists of a detection element and a compensation element. When the combustible gas contacts the catalyst on the surface of the detection element, flameless combustion occurs at a certain temperature, causing the temperature of the detection element to rise and the resistance to increase, while the compensation element does not contact the combustible gas, and the temperature and resistance remain unchanged. By measuring the resistance changes of the detection element and the compensation element, an electrical signal proportional to the combustible gas concentration is generated, thereby realizing the detection of the combustible gas concentration.