Yasheng Ji scite author profile

Yasheng Ji

5Publications

34Citation Statements Received

48Citation Statements Given

How they've been cited

How they cite others

176

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Southwest Jiaotong University

Publications

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Energy-Saving Analysis of Solar Heating System with PCM Storage Tank

Zhao

Yuan

et al. 2018

Energies

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A solar heating system (SHS) with a phase change material (PCM) thermal storage tank is proposed with the view that traditional heat water storage tanks present several problems including large space requirements, significant heat loss and unstable system performance. An entire heating season (November-March) is selected as the research period on the basis of numerical models of the SHS-PCM. In addition, taking a public building in Lhasa as the object, the heating conditions, contribution rate of solar energy, and overall energy-saving capability provided by the heating system are analyzed under different PCM storage tanks and different terminal forms. The results show that an SHS with a PCM tank provides a 34% increase in energy saving capability compared to an ordinary water tank heating system. It is suggested that the design selection parameters of the PCM storage tank should specify a daily heat storage capacity that satisfies 70~80% of the entire heating season. A floor radiant system with supply/return water temperatures of 40/35 • C provides the optimal operation and the largest energy saving capability.

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Seven Operation Modes and Simulation Models of Solar Heating System with PCM Storage Tank

Zhao

Yuan

et al. 2017

Energies

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A physical model and dynamic simulation models of a solar phase-change heat storage heating system with a plate solar collector, phase-change material (PCM) storage tank, plate heat exchanger, and auxiliary heat sources were established. A control strategy and numerical models for each of seven different operation modes that cover the entire heating season of the system were developed for the first time. The seven proposed operation modes are Mode 1: free cooling; Mode 2: reservation of heat absorbed by the solar collector in the PCM storage tank when there is no heating demand; Mode 3: direct supply of the heating demand by the solar collector; Mode 4: use of the heat absorbed by the solar collector to meet the heating demands, with the excess heat stored in the PCM storage tank; Mode 5: use of heat stored in the PCM storage tank to meet the heating demands, Mode 6: combined use of heat stored in the PCM storage tank and the auxiliary heating sources to meet the heating demands; and Mode 7: exclusive use of the auxiliary heat sources in order to meet the heating demands. Mathematical models were established for each of the above seven operation modes, taking into consideration the effects of the outdoor meteorological parameters and terminal load on the heating system. The real-time parameters for the entire heating season of the system with respect to the different operation modes can be obtained by solving the simulation models, and used as reference for the optimal design and operation of the actual system.

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A novel hybrid energy system combined with solar-road and soil-regenerator: Sensitivity analysis and optimization

et al. 2018

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Analysis of factors affecting the performance of a novel micro-channel heat pipe PV-Trombe wall system for space heating

Wang

Zhou

Zhong

et al. 2023

Sustainable Energy Technologies and Assessments

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Experimental and analytical analysis of the impact of different base plate materials and design parameters on the performance of the photovoltaic/thermal system

et al. 2022

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Yasheng Ji

Energy-Saving Analysis of Solar Heating System with PCM Storage Tank

Seven Operation Modes and Simulation Models of Solar Heating System with PCM Storage Tank

A novel hybrid energy system combined with solar-road and soil-regenerator: Sensitivity analysis and optimization

Analysis of factors affecting the performance of a novel micro-channel heat pipe PV-Trombe wall system for space heating

Experimental and analytical analysis of the impact of different base plate materials and design parameters on the performance of the photovoltaic/thermal system

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