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W2800949052 abstract "This work addresses the optimal sizing and selection of the most used technologies reported in literature for energy and water supply of sustainable buildings. The addressed technologies includes Combined Heat and Power units, solar collectors, photovoltaic panels, conventional boilers, wind turbines, Organic Rankine Cycles, biogas production and water treatment systems. The selection technology problem is cast as an optimization model which takes into account embedded nonlinear behavior of the addressed equipment, especially the ones associated with operative efficiency, and dynamics of the storage units. The renewable energy generation, total annual cost, emissions generated and water consumption of the system are used as objective functions. Since some of these objective functions are contradictory, a multi-objective and multi-scenario Mixed Integer nonlinear optimization approach was used to reach trade-off solutions. The multi-objective approach presented allows to define the preferences of the designer based on predefined weights for reaching trade-off solutions using a dimensional approach. The environmental and energy profiles of a residential building in the Pacific Coast of Mexico are presented as Case Study. The results show the importance of including the nonlinear behavior of the technologies for defining a suitable operational policy as well as the effect of using different criteria about the design of water-energy systems." @default.
W2800949052 created "2018-05-17" @default.
W2800949052 creator A5043293185 @default.
W2800949052 creator A5049750865 @default.
W2800949052 date "2018-08-01" @default.
W2800949052 modified "2023-10-03" @default.
W2800949052 title "Integration of distributed generation technologies on sustainable buildings" @default.
W2800949052 cites W1264356688 @default.
W2800949052 cites W1423019172 @default.
W2800949052 cites W1940214240 @default.
W2800949052 cites W1965288599 @default.
W2800949052 cites W1975996710 @default.
W2800949052 cites W1976661300 @default.
W2800949052 cites W1979114051 @default.
W2800949052 cites W1982123412 @default.
W2800949052 cites W1984141482 @default.
W2800949052 cites W1985685907 @default.
W2800949052 cites W1989866797 @default.
W2800949052 cites W1992592644 @default.
W2800949052 cites W1993785545 @default.
W2800949052 cites W1998281000 @default.
W2800949052 cites W2005805347 @default.
W2800949052 cites W2011970986 @default.
W2800949052 cites W2017079099 @default.
W2800949052 cites W2018851888 @default.
W2800949052 cites W2019269377 @default.
W2800949052 cites W2023435418 @default.
W2800949052 cites W2029149883 @default.
W2800949052 cites W2031110929 @default.
W2800949052 cites W2035906911 @default.
W2800949052 cites W2040676905 @default.
W2800949052 cites W2068372279 @default.
W2800949052 cites W2109078417 @default.
W2800949052 cites W2112292958 @default.
W2800949052 cites W2134115330 @default.
W2800949052 cites W2152822532 @default.
W2800949052 cites W2156621934 @default.
W2800949052 cites W2168082768 @default.
W2800949052 cites W2181501561 @default.
W2800949052 cites W2185910337 @default.
W2800949052 cites W2186701619 @default.
W2800949052 cites W2235853075 @default.
W2800949052 cites W2259530142 @default.
W2800949052 cites W2262828533 @default.
W2800949052 cites W2266468421 @default.
W2800949052 cites W2287094055 @default.
W2800949052 cites W2293650719 @default.
W2800949052 cites W2296728900 @default.
W2800949052 cites W2333584866 @default.
W2800949052 cites W2411485149 @default.
W2800949052 cites W2432853490 @default.
W2800949052 cites W2436678264 @default.
W2800949052 cites W2462435618 @default.
W2800949052 cites W2471817405 @default.
W2800949052 cites W2516317526 @default.
W2800949052 cites W2520985926 @default.
W2800949052 cites W2531387855 @default.
W2800949052 cites W2539043469 @default.
W2800949052 cites W2539466352 @default.
W2800949052 cites W2544877123 @default.
W2800949052 cites W2550227226 @default.
W2800949052 cites W2577566441 @default.
W2800949052 cites W2578708223 @default.
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W2800949052 cites W2752676770 @default.
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W2800949052 cites W2770234257 @default.
W2800949052 cites W787686036 @default.
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W2800949052 doi "https://doi.org/10.1016/j.apenergy.2018.04.110" @default.
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