Sahara Forest Project

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Sahara Forest Project

Sahara Forest Projectis developing cutting-edge food, water and energy technologies in the deserts of Qatar and Jordan

The prophet Isaiah once promised that the Lord would make deserts bloom like Eden, but a bunch of Norwegians may actually get the job done first.

The ambitiousSahara Forest Projectis developing cutting-edge food, water and energy technologies in the deserts of Qatar and Jordan in an attempt turn sand dunes into farms. The plan: to combine solar thermal technologies with saltwater evaporation techniques, freshwater condensation, and efficient production of food and biomass without displacing existing agriculture or natural vegetation. Asdesertificationbecomes an increasingly vexing problem around the world, this group of technologists is aiming for revegetation.

In 2011, the Sahara Forest Project signed agreements with influential chemical companies and agribusinesses in Qatar to kick off a pilot program there in 2012. While that project continues, SPF has also been working on plans for its "Launch Station" in Aqaba, Jordan, a 49-acre test run located seven miles from the sea to demonstrate the economic viability of the concept using all its core components. In June 2014, the SPF signed an agreement with The Royal Norwegian Embassy in Amman, with $1.9 million of funding for the Launch Station provided by the Norwegian Ministry of Climate and Environment, The Grieg Foundation, and other philanthropic sources.

What, exactly, is SPF building on the desert sands? The facility is designed around a saltwater-cooled concentrated solar power plant, as well as photovoltaic solar panels. The heat from the solar plant's mirrors powers an evaporative desalination system for the production of distilled water that is used to irrigate plants both in nearby greenhouses and in nearby outdoor plantings. Waste heat warms the greenhouses in the winter and regenerates the desiccant used for dehumidifying the air.

The greenhouses provide suitable growing conditions for year-round cultivation of high-value crops such as cucumbers, tomatoes, peppers, and eggplants at yields competitive with commercial European operations. Leftover seawater at about 15 percent salinity is further evaporated in hedges that create sheltered humid environments to grow fodder, biomass for energy use, and a wide range of salt-loving desert plant species. Salt becomes another sellable by-product, and a site can even accommodate algae ponds for cultivation of the kinds ofgreen goothat's being harvested and processed for biofuel production.

The Sahara Forest Project has run numbers on what a 10,000-acre project, perhaps located in North Africa, might look like. The solar power plant would yield enough power to supply the needs of the project while also exporting 324 gigawatt-hours per year. It would have 740 acres of greenhouses consuming 20,000 cubic meters of freshwater produced annually by the desalinization process, enough water to yield 190,000 tons of tomatoes and melons combined.

Source: Huffington Post

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