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201121s2020 si a ob 001 0 eng d |
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|a9789811461750|q(electronic bk.)
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|a9811461759|q(electronic bk.)
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|z9789811461736|q(print)
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|z9789811461743|q(pbk.)
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|aEBLCP|beng|cEBLCP|dYDX|dLOA
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4
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|aTJ810|b.N377 2020
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04
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|a621.47|223
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100 |
1
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|aNasraoui, Haythem.
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245 |
10
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|aSolar chimney power plants|h[electronic resource] :|bnumerical investigations and experimental validation /|cauthored by Haythem Nasraoui, Moubarek Bsisa, & Zied Driss.
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250 |
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|a1st ed.
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260 |
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|aSingapore :|bBentham Science Publishers,|cc2020.
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300 |
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|a1 online resource (211 p.) :|bill.
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490 |
1
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|aRecent advances in renewable energy,|x2543-2389 ;|vv. 4
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504 |
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|aIncludes bibliographical references and index.
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520 |
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|aSolar Chimney Power Plants: Numerical Investigations and Experimental Validation summarizes the effect of the geometrical parameters of a solar chimney on the airflow behavior inside a solar chimney power plant. Chapters in this experimental handbook are presented in two parts with the goal of equipping readers with the information necessary to study and determine key factors which affect the performance of the solar chimney power plant.In the first part, the authors present a simulation developed by using computational fluid dynamics (CFD) modeling software ANSYS Fluent to model the airflow.
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588 |
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|aDescription based on print version record.
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650 |
0
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|aSolar power plants|xDesign and construction.
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650 |
0
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|aSolar energy.
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700 |
1
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|aBsisa, Moubarek.
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700 |
1
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|aDriss, Zied.
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830 |
0
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|aRecent advances in renewable energy ;|vv. 4.
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856 |
40
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|uhttps://www.eurekaselect.com/184988/volume4
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