Open AccessOptimization of the Energy Output of Osmotic Power Plants
Author(s) -
Florian Dinger,
Tobias Wolfgang Tröndle,
U. Platt
Publication year - 2013
Publication title -
journal of renewable energy
Language(s) - English
Resource type - Journals
eISSN - 2314-4394
pISSN - 2314-4386
DOI - 10.1155/2013/496768
Subject(s) - renewable energy , limiting , environmental science , power (physics) , hydroelectricity , electricity , osmotic pressure , water supply , osmotic power , maximum power principle , electricity generation , environmental engineering , process engineering , engineering , electrical engineering , chemistry , physics , mechanical engineering , thermodynamics , botany , biology , forward osmosis , biochemistry , membrane , reverse osmosis
On the way to a completely renewable energy supply, additional alternatives to hydroelectric, wind, and solar power have to be investigated. Osmotic power is such an alternative with a theoretical global annual potential of up to 14400 TWh (70% of the global electricity consumption of 2008) per year. It utilizes the phenomenon that upon the mixing of fresh water and oceanic salt water (e.g., at a river mouth), around 2.88 MJ of energy per 1 m3 of fresh water is released. Here, we describe a new approach to derive operational parameter settings for osmotic power plants using a pressure exchanger for optimal performance, either with respect to maximum generated power or maximum extracted energy. Up to now, only power optimization is discussed in the literature, but when considering the fresh water supply as a limiting factor, the energy optimization appears as the challenging task
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