被动式太阳能多孔吸附储热墙传热特性

Wei Li; Xiang Ling; Min Zeng

被动式太阳能多孔吸附储热墙传热特性

Translated title of the contribution: Heat Transfer Characteristics of Passive Solar Porous Thermal Storage Wall with Heat Absorption and Storage

Wei Li, Xiang Ling, Min Zeng

School of Mechanical and Power Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

This work investigates the heat transfer performance of a porous thermal storage wall (PTSW) based on a composite sorbent of hydrates for the solar energy direct storage and conversion process under dynamic variations in solar irradiance and ambient temperature. The results indicate that during the charging phase with solar irradiation, the temperature of the PTSW and the outlet air temperature of the channel first increase and then decrease, reaching their maximum values at 14:30, approximately 67.5^◦C and 47.9^◦C, respectively. Before 20:00, the outlet temperature remains above 30^◦C, and the desorption conversion rate at this time is 0.82. During the discharging phase, the temperature initially increases and then stabilizes. The adsorption conversion rate at 09:00 the next day is approximately 0.75, and the outlet temperature during the stable period is around 39.7^◦C. This PTSW enables the efficient utilization of solar heat with extended heating periods.

Translated title of the contribution	Heat Transfer Characteristics of Passive Solar Porous Thermal Storage Wall with Heat Absorption and Storage
Original language	Chinese (Traditional)
Pages (from-to)	2707-2713
Number of pages	7
Journal	Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics
Volume	45
Issue number	9
State	Published - Sep 2024

Cite this

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title = "被动式太阳能多孔吸附储热墙传热特性",

abstract = "This work investigates the heat transfer performance of a porous thermal storage wall (PTSW) based on a composite sorbent of hydrates for the solar energy direct storage and conversion process under dynamic variations in solar irradiance and ambient temperature. The results indicate that during the charging phase with solar irradiation, the temperature of the PTSW and the outlet air temperature of the channel first increase and then decrease, reaching their maximum values at 14:30, approximately 67.5◦C and 47.9◦C, respectively. Before 20:00, the outlet temperature remains above 30◦C, and the desorption conversion rate at this time is 0.82. During the discharging phase, the temperature initially increases and then stabilizes. The adsorption conversion rate at 09:00 the next day is approximately 0.75, and the outlet temperature during the stable period is around 39.7◦C. This PTSW enables the efficient utilization of solar heat with extended heating periods.",

keywords = "conversion, heating, porous heat storage wall, solar thermal store",

author = "Wei Li and Xiang Ling and Min Zeng",

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TY - JOUR

T1 - 被动式太阳能多孔吸附储热墙传热特性

AU - Li, Wei

AU - Ling, Xiang

AU - Zeng, Min

PY - 2024/9

Y1 - 2024/9

N2 - This work investigates the heat transfer performance of a porous thermal storage wall (PTSW) based on a composite sorbent of hydrates for the solar energy direct storage and conversion process under dynamic variations in solar irradiance and ambient temperature. The results indicate that during the charging phase with solar irradiation, the temperature of the PTSW and the outlet air temperature of the channel first increase and then decrease, reaching their maximum values at 14:30, approximately 67.5◦C and 47.9◦C, respectively. Before 20:00, the outlet temperature remains above 30◦C, and the desorption conversion rate at this time is 0.82. During the discharging phase, the temperature initially increases and then stabilizes. The adsorption conversion rate at 09:00 the next day is approximately 0.75, and the outlet temperature during the stable period is around 39.7◦C. This PTSW enables the efficient utilization of solar heat with extended heating periods.

AB - This work investigates the heat transfer performance of a porous thermal storage wall (PTSW) based on a composite sorbent of hydrates for the solar energy direct storage and conversion process under dynamic variations in solar irradiance and ambient temperature. The results indicate that during the charging phase with solar irradiation, the temperature of the PTSW and the outlet air temperature of the channel first increase and then decrease, reaching their maximum values at 14:30, approximately 67.5◦C and 47.9◦C, respectively. Before 20:00, the outlet temperature remains above 30◦C, and the desorption conversion rate at this time is 0.82. During the discharging phase, the temperature initially increases and then stabilizes. The adsorption conversion rate at 09:00 the next day is approximately 0.75, and the outlet temperature during the stable period is around 39.7◦C. This PTSW enables the efficient utilization of solar heat with extended heating periods.

KW - conversion

KW - heating

KW - porous heat storage wall

KW - solar thermal store

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JO - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

JF - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

IS - 9

ER -

被动式太阳能多孔吸附储热墙传热特性

Abstract

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