DocumentCode :
3441006
Title :
A Theoretical Study of the Influence of Gas Pump Thermocouple Hot Cover Structure on Temperature Measurement
Author :
Zhang Zhen Gang ; Feng Qing ; Wang Lang
Author_Institution :
Jingdezhen Ceramic Inst., Jingdezhen, China
fYear :
2013
fDate :
3-4 Dec. 2013
Firstpage :
153
Lastpage :
157
Abstract :
Gas pump thermocouple plays a major role in accurate measurement of the kiln temperature and reducing temperature measurement error. How to design and optimize hot cover structure as well as raise temperature measurement precision has become an important issue in researching and developing new temperature measuring equipment. The author uses the FLUENT6.0 software to simulate the suction of thermocouple working status. In view of the thermocouple hot cover structure, three modes are structurally optimized and simulated, namely diffuser nozzle, extended length and narrow hot cover diameter. Contrast temperature of convective data shows that optimizing heat expiation cover structure can reduce temperature measuring error, which provides numerical and theoretical reference for theoretical analysis and making of the equipment.
Keywords :
convection; kilns; mechanical engineering computing; nozzles; pumps; research and development; temperature measurement; thermocouples; FLUENT6.0 software; contrast temperature; convective data; gas pump thermocouple hot cover structure; heat expiation cover structure; kiln temperature; nozzle; numerical reference; research and development; temperature measurement; temperature measuring equipment; temperature measuring error; theoretical analysis; theoretical study; thermocouple hot cover structure; Electron tubes; Heat pumps; Heat transfer; Heating; Kilns; Measurement uncertainty; Temperature measurement; gas pump thermocouple; simulation; structure optimization; temperature measurement error;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Software Engineering (WCSE), 2013 Fourth World Congress on
Conference_Location :
Hong Kong
Print_ISBN :
978-1-4799-2882-8
Type :
conf
DOI :
10.1109/WCSE.2013.28
Filename :
6754278
Link To Document :
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