The Decision-Making Model of Air-Conditioning Options Based on Time-of-Use Electric Policy

Hai Tao Yue; Kun Chen; Li Tong Dong; Wen Xu Tian; Zhong Fu Tan

doi:10.4028/www.scientific.net/AMM.291-294.1839

Paper Titles

Steady State Model of Screw Chillers Suitable for Variable Conditions Simulation
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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
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The Systems Emulation Study of the Dynamic Heat Load for Underground Structure Envelope
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A Fault Diagnosis Model and its Application in Chiller Operating
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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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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 291-294The Decision-Making Model of Air-Conditioning...

The Decision-Making Model of Air-Conditioning Options Based on Time-of-Use Electric Policy

Abstract:

Over-concentrated load added the generator start-stop frequency and energy consumption, being harmful to the generator running efficiently and economically, dignifying the security and stability of the electricity system. Based on the time-of-use(TOU) price mechanism, this paper suggests superstores take advantage of energy-storage equipment to transfer load and proposes a decision-making model of air-conditioning options. By comparing the costs of the ice-storage air-conditioning with the regular air-conditioning, we find the ice-storage air-conditioning shows much contribution to the power net stability, to energy saving and to the cost decreasing of the superstores.