Compressible Flow Through Solar Power Plant Chimneys

Backström, Theodor W. von; Gannon, Anthony J.

doi:10.1115/1.1313528

Cited by 82 publications

(14 citation statements)

References 4 publications

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“…(6) is, in effect, an explicit solution to the problem posed by Backstro¨m & Gannon [7] for u ðhÞ, and solved numerically. To see this, one can consider a constant diameter solar chimney, with parameters from [7] as follows: (6) and (7) give u ¼ 18:9 m=s and N e ¼ 205 MW which are in agreement with values obtained in [7].…”

Section: Updraft Powermentioning

confidence: 99%

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The solar cyclone: A solar chimney for harvesting atmospheric water

Kashiwa

Kashiwa²

2008

Energy

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The Solar Cyclone has been introduced as a means of extracting fresh water from Earth's atmosphere. The conceptual device operates in the fashion of a Solar Chimney; it is composed of a greenhouse for collecting and storing solar energy as heat, with a central chimney that channels an updraft of surface air heated in the greenhouse. An expansion cyclone separator for condensing and removing atmospheric water is placed at the base of the chimney. The separator consists of a strongly rotating vortex in which the central temperature is well below the dew point for the greenhouse air. Power consumed in the expansion and separation is furnished by the motive potential of the chimney updraft. Turbulent flow conditions are established in the expansion cyclone separator to enhance the centrifugal separation. Excess updraft power is used to generate electricity, as is done in the Solar Chimney. The article furnishes a theoretical basis for the feasibility of the Solar Cyclone, suggesting that an experimental study of the separation device would be worthwhile. r

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Section: Updraft Powermentioning

confidence: 99%

“…Operation of the Solar Chimney has been successfully demonstrated, so the motive potential of an updraft can in fact be used to perform useful work. The motive potential increases with both height of the chimney, and with the temperature rise in the greenhouse [4][5][6][7][8][9][10].…”

Section: Introductionmentioning

confidence: 99%

The solar cyclone: A solar chimney for harvesting atmospheric water

Kashiwa

Kashiwa²

2008

Energy

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“…30). proposed 1500 m high solar chimney with an inner diameter of 160 m that had been carried out by Backstrom and Gannon [135]. They showed that with an increase in the chimney height, the temperature of the outflow decreased due to more thermal energy being converted to gravitational potential energy [136].…”

Section: Analytical and Simulation Studiesmentioning

confidence: 99%

A review on solar chimney systems

Kasaeian

Molana

Rahmani

et al. 2017

Renewable and Sustainable Energy Reviews

143

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The increased utilization of solar energy has gained the attention of researchers to develop the solar chimney (SC) technology in recent years. Many studies have been conducted in this aear both experimentally and theoretically, whereas experimental studies are mainly focused on small-scale systems. This work provides a comprehensive and updated review that include most of the experimental studies, analytical and simulation works, the solar chimney applications, hybrid systems and geographical case studies based on extended references, citation of the updated works and the specified way of looking at different sections. The technological gaps in differnet sections are identified and a summary of suggestions is given for the future work, including more experimental works on the large-scale systems, and CFD analyses for optimization between the geometrical parameters and the output power. More studies on new applications of solar chimney technology including hybrid systems are also recommended.

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“…The performance of solar chimney plants has been investigated by several researchers [1][2][3][4][5]. Among others, Serag-Eldin [6] has shown that, for a given collector area, the performance increases rapidly with increase of height of stack.…”

Section: Conventional Solar-chimney Plantmentioning

confidence: 99%

Analysis of a new solar chimney plant design for mountainous regions

Serag-Eldin¹

2006

WIT Transactions on Engineering Sciences, Vol 53

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The paper presents a new design for solar chimney plants to be erected on mountainous terrain. The objective is to exploit the height of nearby mountains to replace the conventional vertical chimney by a duct built over the steep side of the mountain. The concept is evaluated here employing a computational model involving three-dimensional governing equations, describing mass, momentum and energy balances, in addition to transport of two turbulence quantities. A typical application is demonstrated for a 45 0 sloped mountain. The concept is shown to be plausible and offers many advantages over conventional chimney designs.

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Compressible Flow Through Solar Power Plant Chimneys

Cited by 82 publications

References 4 publications

The solar cyclone: A solar chimney for harvesting atmospheric water

The solar cyclone: A solar chimney for harvesting atmospheric water

A review on solar chimney systems

Analysis of a new solar chimney plant design for mountainous regions

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