The Systems Emulation Study of the Dynamic Heat Load for Underground Structure Envelope

Li Jun Wang; Xiao Ping Miao; Rui Hai Wang; Wei Hua Li; Jun Yang; Yong Li; Feng Jiang; Xiao Feng Zhou

doi:10.4028/www.scientific.net/AMM.291-294.1847

Paper Titles

The Influence of Oversized Boilers on Power Efficiency, Energy Consumption and Cost in Energy Flexible Heat Stations. Part 1
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The Influence of Oversized Boilers on Power Efficiency, Energy Consumption and Cost in Energy Flexible Heat Stations. Part 2
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Investigation of the Heating Characteristics in a Reheating Furnace with Pulse Combustion
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The Decision-Making Model of Air-Conditioning Options Based on Time-of-Use Electric Policy
p.1839

The Systems Emulation Study of the Dynamic Heat Load for Underground Structure Envelope
p.1847

A Fault Diagnosis Model and its Application in Chiller Operating
p.1851

System Optimization and Exergy Analysis of Air Conditioning System for Data Center
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The SMER Simulation Solution of Air Volume on the Effects of Dehumidifier
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Study and Theoretical Calculation on New Type of Adsorption Chiller
p.1867

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 291-294The Systems Emulation Study of the Dynamic Heat...

The Systems Emulation Study of the Dynamic Heat Load for Underground Structure Envelope

Abstract:

Whether the results of the dynamic heat flux from the underground engineering envelope are accurate, may influence the accuracy of calculating the transient heat load and could affect the initial cost and actual operation of the air-conditioning system in the underground engineering. The paper is to find out the mechanisms of the heat transfer in the underground engineering envelope. The mechanisms of heat transfer in normal underground engineering envelope, simplified calculation for heat transfer in the underground engineering envelope and the dynamic emulation of the heat load of the underground engineering envelope.

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Periodical:

Applied Mechanics and Materials (Volumes 291-294)

Pages:

1847-1850

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.291-294.1847

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Online since:

February 2013

Authors:

Li Jun Wang, Xiao Ping Miao, Rui Hai Wang, Wei Hua Li, Jun Yang, Yong Li, Feng Jiang, Xiao Feng Zhou

Keywords:

Building Envelope, Dynamic Heat Load, Systems Emulation, Underground Engineering

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