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Wind and solar powered seawater desalination applied solutions for the Mediterranean, the Middle East and the Gulf countries [An article from: Desalination]
Book Details
Author(s)J.H. Lindemann
PublisherElsevier
ISBN / ASINB000RQYZ3U
ISBN-13978B000RQYZ33
AvailabilityAvailable for download now
Sales Rank9,844,982
MarketplaceUnited States 🇺🇸
Description
This digital document is a journal article from Desalination, published by Elsevier in 2004. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
A seawater desalination plant with an average daily drinking water production of 1.000 m^3/d is planned by imb+frings watersystems and Synlift for an island in the Arabian Gulf. The plant is supplied by a stand alone 750 kW wind energy plant as on grid. The water treatment plant with open intake is planned with ultrafiltration as pretreatment and reverse osmosis. The water will be stored in an 1.500 m^3 storage tank for drinking water. For a successful introduction of wind energy in ADE it is therefore suggested, to implement projects in 2004-2005. The 750 kW wind energy plant will be started up in August 2004. SYNWATER - wind powered ground- or seawater treatment will present a sustainable state-of-the-art technology with example character for the entire Gulf region. A reverse osmosis (RO) plant with an average daily drinking water production of 0.8-3 m^3/d was installed on Gran Canaria Island. The plant is supplied by a stand alone 4.8 kWp photovoltaic (PV) system with an additional battery storage of 60 kWh. The installation constitutes the smallest PV supplied seawater desalination plant currently in operation. On behalf of this prototype the feasibility of small PV RO systems (1-5 m^3/d) is being investigated. The technical details of the RO plant and the energy supply are presented briefly and the operation strategies of the system are presented. Three different regulation strategies for the energy management of the plant are compared and recommendations for an optimised operation are given.
Description:
A seawater desalination plant with an average daily drinking water production of 1.000 m^3/d is planned by imb+frings watersystems and Synlift for an island in the Arabian Gulf. The plant is supplied by a stand alone 750 kW wind energy plant as on grid. The water treatment plant with open intake is planned with ultrafiltration as pretreatment and reverse osmosis. The water will be stored in an 1.500 m^3 storage tank for drinking water. For a successful introduction of wind energy in ADE it is therefore suggested, to implement projects in 2004-2005. The 750 kW wind energy plant will be started up in August 2004. SYNWATER - wind powered ground- or seawater treatment will present a sustainable state-of-the-art technology with example character for the entire Gulf region. A reverse osmosis (RO) plant with an average daily drinking water production of 0.8-3 m^3/d was installed on Gran Canaria Island. The plant is supplied by a stand alone 4.8 kWp photovoltaic (PV) system with an additional battery storage of 60 kWh. The installation constitutes the smallest PV supplied seawater desalination plant currently in operation. On behalf of this prototype the feasibility of small PV RO systems (1-5 m^3/d) is being investigated. The technical details of the RO plant and the energy supply are presented briefly and the operation strategies of the system are presented. Three different regulation strategies for the energy management of the plant are compared and recommendations for an optimised operation are given.
