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Solar chimney for enhanced stack ventilation

Bansal, N.K. / Mathur, Rajesh / Bhandari, M.S.

Abstract A steady state mathematical model has been developed for a solar chimney which is used to enhance the effect of thermally induced ventilation in buildings. The model takes into consideration different sizes of the openings of a solar chimney with varying values of the discharge coefficients. Numerical calculations performed for different values of ambient temperature and solar radiation show that a solar collector area of 2.25 (m²) is able to induce an air flow between 140 (m³/hr) to 330 (m³/hr) for solar radiation of 200 (W/m²) and 1000 (W/m²) respectively.

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Solar chimney for enhanced stack ventilation

Bansal, N.K. / Mathur, Rajesh / Bhandari, M.S.

Abstract A steady state mathematical model has been developed for a solar chimney which is used to enhance the effect of thermally induced ventilation in buildings. The model takes into consideration different sizes of the openings of a solar chimney with varying values of the discharge coefficients. Numerical calculations performed for different values of ambient temperature and solar radiation show that a solar collector area of 2.25 (m²) is able to induce an air flow between 140 (m³/hr) to 330 (m³/hr) for solar radiation of 200 (W/m²) and 1000 (W/m²) respectively.

Solar chimney for enhanced stack ventilation

Bansal, N.K. / Mathur, Rajesh / Bhandari, M.S.

Abstract A steady state mathematical model has been developed for a solar chimney which is used to enhance the effect of thermally induced ventilation in buildings. The model takes into consideration different sizes of the openings of a solar chimney with varying values of the discharge coefficients. Numerical calculations performed for different values of ambient temperature and solar radiation show that a solar collector area of 2.25 (m²) is able to induce an air flow between 140 (m³/hr) to 330 (m³/hr) for solar radiation of 200 (W/m²) and 1000 (W/m²) respectively.

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Titel:

Solar chimney for enhanced stack ventilation

Beteiligte:

Bansal, N.K. (Autor:in) / Mathur, Rajesh (Autor:in) / Bhandari, M.S. (Autor:in)

Erschienen in:

Building and Environment ; 28 ; 373-377

Erscheinungsdatum:

01.01.1993

Format / Umfang:

5 pages

ISSN:

DOI:

https://doi.org/10.1016/0360-1323(93)90042-2

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

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