Techno-economic analysis of combined concentrating solar power and desalination plant configurations in Israel and Jordan

Combined concentrating solar power (CSP) and desalination plants represent a realistic future option for the production of electricity and fresh water for countries of the world’s sunbelt. In this paper, parabolic trough power plants for electricity production have been analysed in combination with...

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Bibliographic Details
Published in:Desalination and water treatment 2012-03, Vol.41 (1-3), p.9-25
Main Authors: Olwig, Ralf, Hirsch, Tobias, Sattler, Christian, Glade, Heike, Schmeken, Louisa, Will, Stefan, Ghermandi, Andrea, Messalem, Rami
Format: Article
Language:English
Subjects:
Applied sciences
Capacity
Chemical analysis
Coastal environments
Concentrating solar power
Cost engineering
Costs
Costs of water
Desalination
Desalination plants
Distillation
Distilling
Economic analysis
Economics
Electric power
Electric power generation
Electric power plants
Electricity
Electricity generation
Electricity pricing
Energy
Energy costs
Energy resources
Environmental management
Exact sciences and technology
Fresh water
Freshwater environments
Full load
Heat
Heat storage
High temperature
Irradiance
Land
Multi-effect distillation
Pollution
Power plants
Production capacity
Pumping
Renewable energy
Renewable energy sources
Renewable resources
Resource management
Reverse osmosis
Seawater
Solar energy
Solar generators
Solar power
Steam consumption
Steam electric power generation
Storage units
Tariffs
Turbines
Ultrafiltration
Water
Water analysis
Water costs
Water desalting
Water filtration
Water treatment and pollution
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Summary:Combined concentrating solar power (CSP) and desalination plants represent a realistic future option for the production of electricity and fresh water for countries of the world’s sunbelt. In this paper, parabolic trough power plants for electricity production have been analysed in combination with multi-effect distillation (MED) and ultrafiltration/reverse osmosis (RO) desalination plants for two sites in Israel (Ashdod) and Jordan (Aqaba). Both RO and MED desalination plants were designed for a fresh water production capacity of 24,000 m3/d. The power block of the CSP plant was selected to meet the steam consumption of the MED plant at the design point, which led to a gross electrical power generation capacity of the power block of 42 MWel. Due to the low availability and generally high cost of coastal land, the CSP + RO plant consists of two separate units. It was assumed that the CSP plant is located at an inland location where there is land available. The RO plant is located at the sea, while the MED plant is located at the CSP site. The pumping of the seawater and the water transmission system add about 0.2 $/m3 to the levelized water costs of the CSP + MED plant compared with a plant located at the sea. Three different sizes of high temperature heat storages (0 h, 6 h and 12 h of additional full load operation of the steam turbine) were applied to find the most economic setup. At current prices for heat storage units, systems with huge heat storage capacities become economic only at high feed-in tariffs for electricity and thus high revenues. The price of the electricity generated by the CSP plant was varied to show the influence of the feed-in tariff on the water generating costs. The levelized costs of water (LCOW) strongly depend on the electricity price. Water costs in Ashdod are higher than those in Aqaba due to the lower solar irradiance. For Aqaba, LCOW of about 1 $/m3 can be realized if a feed-in tariff of about 0.24 $/kWh for electricity from renewable energy sources is established.
ISSN:1944-3986
1944-3994
1944-3986
DOI:10.1080/19443994.2012.664674