Efficient, low-cost solar thermoelectric cogenerators comprising evacuated tubular solar collectors and thermoelectric modules

Ming Zhang; Lei Miao; Yi Pu Kang; Sakae Tanemura; Craig A.J. Fisher; Gang Xu; Chun Xin Li; Guang Zhu Fan

doi:10.1016/j.apenergy.2013.03.008

Efficient, low-cost solar thermoelectric cogenerators comprising evacuated tubular solar collectors and thermoelectric modules

Ming Zhang, Lei Miao, Yi Pu Kang, Sakae Tanemura, Craig A.J. Fisher, Gang Xu, Chun Xin Li, Guang Zhu Fan

研究成果: Article › 査読

94 被引用数 (Scopus)

抄録

We have designed a solar thermoelectric cogenerator (STECG), which can supply electric power and heat simultaneously, by adding thermoelectric modules to the heat pipe in evacuated tubular solar collectors. A pilot experiment shows that the STECG can generate 0.19kWh of electrical energy and about 300l of hot water at 55°C in 1day when the figure of merit of the thermoelectric module, ZT_M, is 0.59 and solar insolation is less than 1000W/m². A theoretical model for accurately predicting the thermal losses, collector efficiency and electrical efficiency of the STECG is also presented based on energy balance and heat transfer equations. For thermoelectric modules with ZT_M=1, when the solar insolation, wind velocity, ambient temperature and water temperature are 1000W/m², 1.3m/s, 25°C and 25°C, respectively, the collector efficiency, output electrical power and electrical efficiency are calculated to be 47.54%, 64.80W and 1.59%, respectively. The results show that STECGs combining heat pipes with thermoelectric modules in evacuated tubular solar water heaters are economical and practical, making them suitable for commercial production.

本文言語	English
ページ（範囲）	51-59
ページ数	9
ジャーナル	Applied Energy
巻	109
DOI	https://doi.org/10.1016/j.apenergy.2013.03.008
出版ステータス	Published - 2013 9月
外部発表	はい

ASJC Scopus subject areas

建築および建設
エネルギー（全般）
機械工学
管理、モニタリング、政策と法律

文献へのアクセス

10.1016/j.apenergy.2013.03.008

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引用スタイル

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title = "Efficient, low-cost solar thermoelectric cogenerators comprising evacuated tubular solar collectors and thermoelectric modules",

abstract = "We have designed a solar thermoelectric cogenerator (STECG), which can supply electric power and heat simultaneously, by adding thermoelectric modules to the heat pipe in evacuated tubular solar collectors. A pilot experiment shows that the STECG can generate 0.19kWh of electrical energy and about 300l of hot water at 55°C in 1day when the figure of merit of the thermoelectric module, ZTM, is 0.59 and solar insolation is less than 1000W/m2. A theoretical model for accurately predicting the thermal losses, collector efficiency and electrical efficiency of the STECG is also presented based on energy balance and heat transfer equations. For thermoelectric modules with ZTM=1, when the solar insolation, wind velocity, ambient temperature and water temperature are 1000W/m2, 1.3m/s, 25°C and 25°C, respectively, the collector efficiency, output electrical power and electrical efficiency are calculated to be 47.54%, 64.80W and 1.59%, respectively. The results show that STECGs combining heat pipes with thermoelectric modules in evacuated tubular solar water heaters are economical and practical, making them suitable for commercial production.",

keywords = "Electricity, Evacuated tube heat pipe solar collector, Solar cogeneration, Thermal energy, Thermoelectric conversion",

author = "Ming Zhang and Lei Miao and Kang, {Yi Pu} and Sakae Tanemura and Fisher, {Craig A.J.} and Gang Xu and Li, {Chun Xin} and Fan, {Guang Zhu}",

note = "Funding Information: This work was supported by the National Nature Science Foundation of China 51172234, and Guangdong Provincial Science and Technology Grant 2011B010100043 and Chinese Academy of Sciences: Key Laboratory of Renewable Energy and Natural Gas Hydrate Foundation, Grant No. y107j3.",

year = "2013",

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doi = "10.1016/j.apenergy.2013.03.008",

language = "English",

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journal = "Applied Energy",

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T1 - Efficient, low-cost solar thermoelectric cogenerators comprising evacuated tubular solar collectors and thermoelectric modules

AU - Zhang, Ming

AU - Miao, Lei

AU - Kang, Yi Pu

AU - Tanemura, Sakae

AU - Fisher, Craig A.J.

AU - Xu, Gang

AU - Li, Chun Xin

AU - Fan, Guang Zhu

N1 - Funding Information: This work was supported by the National Nature Science Foundation of China 51172234, and Guangdong Provincial Science and Technology Grant 2011B010100043 and Chinese Academy of Sciences: Key Laboratory of Renewable Energy and Natural Gas Hydrate Foundation, Grant No. y107j3.

PY - 2013/9

Y1 - 2013/9

N2 - We have designed a solar thermoelectric cogenerator (STECG), which can supply electric power and heat simultaneously, by adding thermoelectric modules to the heat pipe in evacuated tubular solar collectors. A pilot experiment shows that the STECG can generate 0.19kWh of electrical energy and about 300l of hot water at 55°C in 1day when the figure of merit of the thermoelectric module, ZTM, is 0.59 and solar insolation is less than 1000W/m2. A theoretical model for accurately predicting the thermal losses, collector efficiency and electrical efficiency of the STECG is also presented based on energy balance and heat transfer equations. For thermoelectric modules with ZTM=1, when the solar insolation, wind velocity, ambient temperature and water temperature are 1000W/m2, 1.3m/s, 25°C and 25°C, respectively, the collector efficiency, output electrical power and electrical efficiency are calculated to be 47.54%, 64.80W and 1.59%, respectively. The results show that STECGs combining heat pipes with thermoelectric modules in evacuated tubular solar water heaters are economical and practical, making them suitable for commercial production.

AB - We have designed a solar thermoelectric cogenerator (STECG), which can supply electric power and heat simultaneously, by adding thermoelectric modules to the heat pipe in evacuated tubular solar collectors. A pilot experiment shows that the STECG can generate 0.19kWh of electrical energy and about 300l of hot water at 55°C in 1day when the figure of merit of the thermoelectric module, ZTM, is 0.59 and solar insolation is less than 1000W/m2. A theoretical model for accurately predicting the thermal losses, collector efficiency and electrical efficiency of the STECG is also presented based on energy balance and heat transfer equations. For thermoelectric modules with ZTM=1, when the solar insolation, wind velocity, ambient temperature and water temperature are 1000W/m2, 1.3m/s, 25°C and 25°C, respectively, the collector efficiency, output electrical power and electrical efficiency are calculated to be 47.54%, 64.80W and 1.59%, respectively. The results show that STECGs combining heat pipes with thermoelectric modules in evacuated tubular solar water heaters are economical and practical, making them suitable for commercial production.

KW - Electricity

KW - Evacuated tube heat pipe solar collector

KW - Solar cogeneration

KW - Thermal energy

KW - Thermoelectric conversion

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