Abstract
In arid, coastal cities, water demand is often met through large-scale desalination systems. However, the energy required to run desalination plants remains a drawback. Further, numerous low-density population areas lack not only fresh water availability, but in most of the cases electrical grid connection or any other energy source as well. The challenge, consequently, is to ensure adequate fresh water supplies at the lowest possible cost. The main objective of this work is to assess the freshwater production from a reverse osmosis desalination system powered by a wave energy converter, the Overtopping Breakwater for Wave Energy Conversion (OBREC). The desktop analysis is illustrated through a case study on the Fenoarivo Atsinanana coast, along north-eastern Madagascar. The novel aspect of the analysis method is the application of a specific numerical code calibrated using preliminary results from a two-year monitoring campaign of the first OBREC prototype in operation in Naples Harbour (Italy). Instead of dissipating the incoming wave energy, the system collects the overtopping water above the sea level and the potential energy is converted into electricity through low head turbines. Then, the flow will be driven towards the desalination system. This configuration seems like a promising opportunity for developing countries to meet their water supply needs while at the same time developing their renewable energy potential.
Highlights
Today, over 1.76 billion people live in places with a high degree of water shortage, since they do not have access to freshwater, or, if they have, such water is unable to be used [1]
The main objective of this work is to assess the freshwater production from a reverse osmosis desalination system powered by a wave energy converter, the Overtopping Breakwater for Wave Energy Conversion (OBREC)
Instead of dissipating the incoming wave energy, the system collects the overtopping water above the sea level and the potential energy is converted into electricity through low head turbines
Summary
Over 1.76 billion people live in places with a high degree of water shortage, since they do not have access to freshwater, or, if they have, such water is unable to be used [1]. Many cities and small villages along the coastline are experiencing a real freshwater crisis, but at the same time have abundant salt water sources. This difficulty in providing water has caused many countries in the world to look for new water sources, and to find in seawater desalination a valid alternative to alleviate this crisis situation. The global capacity is more than 86.8 million m3/day, and about 60% of the feed water used is seawater [2]
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