Open AccessF FRESH WATER GENERATION BY WIND ENERGE
Author(s) -
Foad Srhan Jiwad,
Isam Mejbel Abed,
Mojtaba Behnam Taghadosi
Publication year - 2020
Publication title -
the iraqi journal for mechanical and materials engineering/maǧallaẗ al-ʻirāqiyyaẗ li-l-handasaẗ al-mīkānīkiyyaẗ wa-handasaẗ al-mawādd
Language(s) - English
Resource type - Journals
eISSN - 2313-3783
pISSN - 1819-2076
DOI - 10.32852/iqjfmme.v20i2.496
Subject(s) - environmental science , desalination , renewable energy , water energy nexus , overshoot (microwave communication) , water scarcity , turbine , wind power , electricity generation , environmental engineering , marine engineering , meteorology , water resources , engineering , power (physics) , electrical engineering , mechanical engineering , geography , ecology , genetics , physics , quantum mechanics , membrane , nexus (standard) , biology , embedded system
The climate change and water scarcity are the most world environmental challenges.Producing fresh water from seawater needs a lot of energy that may be supported by fossilfuel power stations. However, a solution for the challenges is water desalination system thatis integrated to the renewable energy. Moreover, there is much energy conversion in thesesystems that reduce the overall system efficiency. This article introduces a novel DesalinationWind Turbine, and such that it is described and analyzed by nonlinear simulation. In thissystem, the wind energy transmitted to the water pump by a hydraulic transmission line. TheRO module is used for fresh water production. The long-term performance of the system,such as annual water production is calculated and the ability of the system to Maximum PowerPoint Tracking and the wind turbulence and wind sudden change is analyzed, which showsthe system overshoot is less than 6%.