Experimental Investigation of Indoor Thermal Environment of Using Radiant Cooling

Jian Bo Chen; Ling Xi; Fen Li; He Li

doi:10.4028/www.scientific.net/AMR.243-249.4899

Paper Titles

Numerical Simulation on Mechanical Ventilation for Odor Removal Efficiency in a Bathroom
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Investigation on Double-Tube Copper-Aluminum Column-Wing Type Radiators
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Study on Fire Smoke Control of Underground Annular Channel
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Experimental Research on Performance of Water-Cooled VRF System in Winter in Shanghai
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Experimental Investigation of Indoor Thermal Environment of Using Radiant Cooling
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Design Range of Indoor Relative Humidity in Radiant Cooling Environment
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Experimental Study of a Solar Assisted Air Source Heat Pump in Heating Condition
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Hourly Heating Load Prediction of Radiant Floor Heating System Based on the BP Neural Network
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Comparison of Performance between R290 and R417A in Heat Pump Air Conditioning Water Heater Combination
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 243-249Experimental Investigation of Indoor Thermal...

Experimental Investigation of Indoor Thermal Environment of Using Radiant Cooling

Abstract:

Capillary radiation air-conditioning is a form of high thermal comfort of new air conditioning, System's cooling capacity, surface radiation temperature and temperature distribution in air-conditioned room are important parameters to the system’s design and operation, determination and analysis of these parameters in the actual operation of capillary tube radiant air conditioning system is designed to have a practical reference value. This article is under summer conditions and through the experimental research methods, measurement and analysis the vertical, the horizontal and the wall temperature distributions of the air-conditioning room under different capillary radiation conditions, which provide reference information for the capillary tube design of the radiation air conditioning system, the selection of the operation parameters, the control of the condensation etc.

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Periodical:

Advanced Materials Research (Volumes 243-249)

Pages:

4899-4904

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.243-249.4899

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Online since:

May 2011

Authors:

Jian Bo Chen, Ling Xi, Fen Li, He Li

Keywords:

Distribution of the Temperature, Radiant Air Conditioning, Variable Radiating Surface of the Air Conditioning

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References

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