X. R. Zhang scite author profile

X. R. Zhang

3Publications

69Citation Statements Received

14Citation Statements Given

How they've been cited

169

How they cite others

Affiliations

Peking University, Doshisha University

Publications

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Thermodynamic analysis of the CO2-based Rankine cycle powered by solar energy

Zhang

Yamaguchi

Uneno

2007

Int. J. Energy Res.

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SUMMARYUsing carbon dioxide as working fluid receives increasing interest since the Kyoto Protocol. In this paper, thermodynamic analysis was conducted for proposed CO 2 -based Rankine cycle powered by solar energy. It can be used to provide power output, refrigeration and hot water. Carbon dioxide is used as working fluid with supercritical state in solar collector. Theoretical analysis was carried out to investigate performances of the CO 2 -based Rankine cycle. The interest was focused on comparison of the performance with that of solar cell and those when using other fluids as working fluids. In addition, the performance and characteristics of the thermodynamic cycle are studied for different seasons. The obtained results show that using CO 2 as working fluid in the Rankine cycle owns maximal thermal efficiency when the working temperature is lower than 250:08C: The power generation efficiency is about 8%, which is comparable with that of solar cells. But in addition to power generation, the CO 2 -based solar utilization system can also supply thermal energy.

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Study of solar energy powered transcritical cycle using supercritical carbon dioxide

Zhang

Yamaguchi

Fujima³

et al. 2006

Int. J. Energy Res.

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SUMMARYIn this paper, the performance of solar energy powered transcritical cycle using supercritical carbon dioxide for a combined electricity and heat generation, is studied experimentally. The experimental set-up consists of evacuated solar collectors, pressure relief valve, heat exchangers and CO 2 feed pump. The pressure relief valve is used to simulate operation of a turbine and to complete the thermodynamic cycle. A complete effort was carried out to investigate the cycle performances not only in summer, but also in winter conditions. The results show that a reasonable thermodynamic efficiency can be obtained and COP for the overall outputs from the cycle is measured at 0.548 and 0.406, respectively, on a typical summer and winter day. The study shows the potential of the application of the solar energy powered cycle as a green power/ heat generation system.

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Preliminary Study on a Solar Water Heater Using Supercritical Carbon Dioxide as Working Fluid

Yamaguchi

Sawada²,

Suzuki³

et al. 2010

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In this paper, a solar water heater using supercritical carbon dioxide as working fluid is proposed and experimentally studied. For supercritical carbon dioxide, a small change in temperature or pressure can result in large change in density, especially in the state close to the critical point. Thus, natural convective flow of the supercritical carbon dioxide can be easily induced by solar heating or water cooling. Such convective flow absorbs and transports heat to water in solar collector tubes. Motivated by the above idea, an experimental setup was designed, and a solar water heater was tested. The obtained results show that natural convective flow is well induced, and a flow of 1900 Reynolds number can be achieved even in winter, when the lowest level of solar radiation condition occurs. Furthermore, the measured collector and heat recovery efficiencies are 66.0% and 65.0%, respectively. More details of its mechanism are to be studied, and a complete performance analysis is needed.

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X. R. Zhang

Thermodynamic analysis of the CO2-based Rankine cycle powered by solar energy

Study of solar energy powered transcritical cycle using supercritical carbon dioxide

Preliminary Study on a Solar Water Heater Using Supercritical Carbon Dioxide as Working Fluid

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