1301100022, also known as a type of thermocouple, is often used in industrial equipment to measure extreme temperatures, such as in furnaces, boilers, and other high temperature applications. This type of thermocouple utilizes an extension wire to transmit measurements from a hot junction to a measuring device such as a temperature controller or temperature recorder. This article will discuss the application field and working principle of 1301100022.
The application field of 1301100022 includes boilers, heaters, furnaces, fryers, kilns, ovens, and other industrial equipment that require the measurement of extreme temperatures. This type of thermocouple can measure temperatures as high as 1100°C (2012°F). This makes it an ideal choice for applications that require accurate temperature readings in extreme temperature conditions.
The working principle of 1301100022 is based on the Seeback effect, which states that when two different types of metal are connected together, a small voltage is generated. The voltage that is generated is inversely proportional to the temperature of the junction. This allows the thermocouple to accurately measure the temperature of the hot junction, and transmit the data to a controller or recorder.
The thermocouple consists of two dissimilar metal wires which are welded together at one end and insulated from each other at the other. The junctions are then connected to the terminals of the measuring device. When the terminals are connected, the voltage generated is proportional to the temperature of the hot junction and can then be measured. This voltage is then used to determine the temperature reading.
1301100022 is a reliable, accurate, and cost-effective type of thermocouple which is ideal for measuring extreme temperatures in industrial settings. With its ability to measure temperatures up to 1100°C (2012°F), it is an ideal choice for applications that require temperature readings in extreme conditions. understanding how to properly choose, install, and read this type of thermocouple is crucial to its effectiveness and accuracy.