Amarbayar Adiyabat scite author profile

Amarbayar Adiyabat

5Publications

43Citation Statements Received

9Citation Statements Given

How they've been cited

How they cite others

Affiliations

National University of Mongolia, National Institute of Advanced Industrial Science and Technology, Tokyo University of Agriculture and Technology

Publications

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Evaluation of solar energy potential and PV module performance in the Gobi Desert of Mongolia

Adiyabat

Kurokawa

Otani

et al. 2006

Progress in Photovoltaics

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Here, we present the results of evaluation of solar energy potential and photovoltaic (PV) module performance from actual data measured over a period of more than 2 years in the Gobi Desert of Mongolia. To allow estimation of solar energy potentials and durability of PV systems in the Gobi Desert area, a data acquisition system, including crystalline silicon (c-Si), polycrystalline silicon (p-Si) modules, and two sets of precision pyranometers, thermometers, and anemometer, was installed at Sainshand City in October 2002. This system measures 23 parameters, including solar irradiation and meteorological parameters, every 10 min. High output gain was observed due to operation at extremely low ambient temperatures and the module performance ratios (PRs) were high (>1Á0) in winter. In summary, the present study showed that a PV module with a high temperature coefficient, such as crystalline silicon, is advantageous for use in the Gobi Desert area.

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Model Analysis of Solar Thermal System with the Effect of Dust Deposition on the Collectors

et al. 2018

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In this study, a TraNsient SYStems (TRNSYS) simulation model for solar thermal systems is developed to assess the potential of solar energy utilization in cold climate zones, such as Ulaanbaatar (Mongolia), which is one of the five cities with the worst air quality in the world. Since air pollution contaminates solar collectors and decreases their efficiency, this model accounts for dust deposition behavior so that the best cleaning time for the collectors can be estimated. The simulation results show that the best cleaning time falls between the middle of January and the beginning of February. In addition, a collector cleaned once during the heating period is estimated to produce 12% more energy compared with a collector that has not been cleaned.

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Performance analysis of solar thermal system for heating of a detached house in harsh cold region of Mongolia

et al. 2018

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Long term performance analysis of PV module in the Gobi Desert of Mongolia

Adiyabat

Otani

Enebish³

et al. 2010

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Observation and modeling of dust deposition on glass tube of evacuated solar thermal collectors in Mongolia

et al. 2019

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