Thermal comfort model analysis and optimization performance evaluation of a multifunctional ice storage air conditioning system in a confined mine refuge chamber

A multifunctional ice storage air conditioning system was designed and its working principle, working mode and structure modification were improved. It can achieve cooling, dehumidification when the energy supply is either exhausted or adequate. The PMV grade method has been modified and applied, an...

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Published inEnergy (Oxford) Vol. 141; pp. 964 - 974
Main Authors Du, Yan, Gai, Wen-mei, Jin, Long-zhe, Sheng, Wang
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.12.2017
Subjects
air
air conditioning
body temperature
cold storage
cooling
dehumidification
energy
engineering
humans
humidity
Humidity load
Ice storage air conditioning
people
Refuge chamber
sensation
Thermal comfort model
Thermal load
Humidity load
Refuge chamber
Ice storage air conditioning
Thermal load
Thermal comfort model
Online AccessGet full text
ISSN0360-5442
DOI10.1016/j.energy.2017.09.123

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Abstract A multifunctional ice storage air conditioning system was designed and its working principle, working mode and structure modification were improved. It can achieve cooling, dehumidification when the energy supply is either exhausted or adequate. The PMV grade method has been modified and applied, and thermal comfort model is obtained and the acceptable upper limit of human body temperature and humidity tolerance range is 35 °C and 80% RH. Thermal load and humidity load model were defined, analyzed, and verified by human survival experiments. Finally the optimization performance of this ice storage air conditioning system was validated through theoretical calculation and experimental verification and technical parameters appropriate for engineering applications were analyzed. The temperature and humidity in refuge chamber are eventually controlled at 31°Cand 77% RH. According to the experiment subjects, the living environment in refuge chamber is quite comfortable and thermal sensation is not stuffy. It can be concluded that the energy consumption of air conditioning fan was reduced by 35%, the ice storage needed was reduced by 15%, the rated air velocity of air conditioning was analyzed and the effective working time of this system was determined to be not below 96 h for 8 persons to survive in a refuge chamber. •A multifunctional ice storage air conditioning system was optimized and improved.•Thermal comfort model of human temperature and humidity tolerance range was obtained.•Thermal load and humidity load model were defined, analyzed and verified.•Optimization performance of multifunctional air conditioning system were validated.•Technical parameters appropriate for engineering applications were analyzed.
AbstractList A multifunctional ice storage air conditioning system was designed and its working principle, working mode and structure modification were improved. It can achieve cooling, dehumidification when the energy supply is either exhausted or adequate. The PMV grade method has been modified and applied, and thermal comfort model is obtained and the acceptable upper limit of human body temperature and humidity tolerance range is 35 °C and 80% RH. Thermal load and humidity load model were defined, analyzed, and verified by human survival experiments. Finally the optimization performance of this ice storage air conditioning system was validated through theoretical calculation and experimental verification and technical parameters appropriate for engineering applications were analyzed. The temperature and humidity in refuge chamber are eventually controlled at 31°Cand 77% RH. According to the experiment subjects, the living environment in refuge chamber is quite comfortable and thermal sensation is not stuffy. It can be concluded that the energy consumption of air conditioning fan was reduced by 35%, the ice storage needed was reduced by 15%, the rated air velocity of air conditioning was analyzed and the effective working time of this system was determined to be not below 96 h for 8 persons to survive in a refuge chamber. •A multifunctional ice storage air conditioning system was optimized and improved.•Thermal comfort model of human temperature and humidity tolerance range was obtained.•Thermal load and humidity load model were defined, analyzed and verified.•Optimization performance of multifunctional air conditioning system were validated.•Technical parameters appropriate for engineering applications were analyzed.
A multifunctional ice storage air conditioning system was designed and its working principle, working mode and structure modification were improved. It can achieve cooling, dehumidification when the energy supply is either exhausted or adequate. The PMV grade method has been modified and applied, and thermal comfort model is obtained and the acceptable upper limit of human body temperature and humidity tolerance range is 35 °C and 80% RH. Thermal load and humidity load model were defined, analyzed, and verified by human survival experiments. Finally the optimization performance of this ice storage air conditioning system was validated through theoretical calculation and experimental verification and technical parameters appropriate for engineering applications were analyzed. The temperature and humidity in refuge chamber are eventually controlled at 31°Cand 77% RH. According to the experiment subjects, the living environment in refuge chamber is quite comfortable and thermal sensation is not stuffy. It can be concluded that the energy consumption of air conditioning fan was reduced by 35%, the ice storage needed was reduced by 15%, the rated air velocity of air conditioning was analyzed and the effective working time of this system was determined to be not below 96 h for 8 persons to survive in a refuge chamber.
Author Sheng, Wang
Gai, Wen-mei
Du, Yan
Jin, Long-zhe
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Keywords Humidity load
Refuge chamber
Ice storage air conditioning
Thermal load
Thermal comfort model
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Snippet A multifunctional ice storage air conditioning system was designed and its working principle, working mode and structure modification were improved. It can...
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SubjectTerms air
air conditioning
body temperature
cold storage
cooling
dehumidification
energy
engineering
humans
humidity
Humidity load
Ice storage air conditioning
people
Refuge chamber
sensation
Thermal comfort model
Thermal load
Title Thermal comfort model analysis and optimization performance evaluation of a multifunctional ice storage air conditioning system in a confined mine refuge chamber
URI https://dx.doi.org/10.1016/j.energy.2017.09.123
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