Title :
Optimal Design of an “Energy Tower” Power Plant
Author :
Omer, Eyal ; Guetta, Rami ; Ioslovich, Ilya ; Gutman, Per-Olof ; Borshchevsky, Michael
Author_Institution :
Technion, Haifa
fDate :
3/1/2008 12:00:00 AM
Abstract :
The energy tower (ET) is a power plant that uses seawater and solar energy accumulated in hot dry desert air to produce electricity. An optimization algorithm was designed and programmed for the design of an ET that also includes water reservoirs, pipes, and pumps. The algorithm is a variant of the block coordinate descent method, where one subproblem is formulated as a linear programming problem, and a second subproblem usually has an analytic solution. If the analytic solution is nonfeasible, a variant of the quasi-Newton algorithm is used instead. The algorithm was tested with input information from the arid area near Eilat, the Red Sea, Israel.
Keywords :
hybrid power systems; linear programming; power generation planning; solar power; energy tower power plant; hot dry desert air; linear programming problem; optimization algorithm; quasiNewton algorithm; seawater; solar energy; water reservoirs; Energy management; optimization methods; power system modeling; power system planning;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2007.905349
