DESIGN AND OPTIMIZATION OF THERMAL SYSTEMS YOGESH JALURIA PDF

Would you like to tell us about a lower price? If you are a seller for this product, would you like to suggest updates through seller support? This new text presents the basic concepts and procedures for the design and optimization of thermal systems. Through a variety of open-ended problems and examples, Design and Optimization of Thermal Systems discusses conceptual design, formulation, modeling, simulation, synthesis, and optimization. Computational simulations are also presented as important ingredients in the design process. The text takes the reader from simple systems to full-scale practical systems in industry.

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Energy Storage Systems pp Cite as. The storage of thermal energy is important in a wide variety of applications. Certainly, in the utilization of solar energy, the storage of the energy received is of particular interest and importance because of the intermittent nature of solar energy. The energy storage system in this case must be able to retain the energy absorbed for at least a few days in order to be able to supply energy, as needed, on cloudy days when the energy input is small For power generation, the desired duration of storage is even longer since the substantially greater absorbed energy in the summer, as compared to that in the winter, is to be retained over several months to meet the demand during the winter.

A salt-gradient solar pond is such a long-term storage system [1] For short-term storage requirements, storage of thermal energy in tanks of water, packed beds, phase-change materials and in other high thermal capacity materials have been used for solar energy applications [2,3]. Besides thermal energy, storage systems based on electrical, mechanical and chemical energy have been developed and employed for different applications.

Unable to display preview. Download preview PDF. Skip to main content. This service is more advanced with JavaScript available. Advertisement Hide. This process is experimental and the keywords may be updated as the learning algorithm improves. This is a preview of subscription content, log in to check access. Google Scholar. Wiley, NY, Hemisphere Pub. Harper and Row , NY, Tabor H: Nonconvecting Solar Ponds. Royal Soc, London, A, —, Solar Energy, 19, 45—54, CrossRef Google Scholar.

Solar Energy, 26, , Solar Energy, 28, —, Heat Transfer, , 15—20, Energy Conversion, 22, 63—70, Jaluria Y: Computer Methods for Engineering. Pergamon Press, Oxford, UK Water Resources Res, 5, —, NATO Adv. Energy Res, 7, —, Heat Transfer, 98, , Telkes M: Solar Energy Storage. Heat Transfer, , —, Int Comm. Heat Mass Transfer, 8, 69—77, Int J. Heat Mass Transfer, 25, —, Kakac, W. Aung and R. Viskanta, Eds, Hemisphere Pub.

Corp, Washington, DC, —, Heat Transfer, 7, —, Solar Energy Engg, , —, Simulation, 49, —, CAIP Rep. McGraw-Hill, NY, Dieter GE: Engineering Design. Farrington R and Myers D. Inst, Golden, CO, Ogata K: System Dynamics. Personalised recommendations. Cite chapter How to cite? ENW EndNote. Buy options.

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Design and Optimization of Thermal Systems

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