Fuel crop: A field of salicornia, a saltwater-tolerant plant, at a test plot in the north African country of Eritrea.
The Seawater Foundation
A research project will make jet fuel without wasting fresh water or farmland.
A project in the Middle East aims to make jet fuel from saltwater-tolerant crops grown in the desert. Researchers at the Masdar Institute in the United Arab Emirates are starting a two-square-kilometer demonstration farm that will combine fish and shrimp farming with the cultivation of mangrove trees and salicornia, a plant with oil-rich seeds that can be converted into fuel.
The goal is to produce biofuels without taking away land from food crops or using large amounts of fresh water, which are two of the major shortcomings of conventional biofuels, says Scott Kennedy, an associate professor at the Masdar Institute who is leading the project. The project is supported by several major companies: Boeing, Etihad Airways (the national airline of the UAE), and UOP Honeywell, which will supply technology for converting the biomass to chemical precursors and fuels. The Masdar Institute is part of a zero-emissions city being built in Abu Dhabi, the largest emirate in the UAE.
Kennedy and his colleagues will refine a technique called integrated seawater agriculture. It begins with digging a canal from the sea. That canal delivers water to several stages in the system. First, the researchers pump saltwater into ponds or flow it past cages used for growing shrimp or fish. Ordinarily, such aquaculture is an "environmental disaster," Kennedy says. The runoff contains large amounts of feces that can cause dangerous algae blooms, for example. But in the Masdar system, the researchers will use that effluent downstream to fertilize salicornia.
The salicornia is grown in saltwater-irrigated fields, and can be harvested like other crops, such as wheat or rice. The runoff from that irrigation, now saltier and still containing some effluent from the fish and shrimp, together with more water from the canal, is next fed to a stretch of planted mangrove trees, which can grow in that saltier water. The mangrove forest provides a barrier, so that none of the polluted water from the fish farm returns to the ocean. The leaves can also be used as food for the fish.
The oil-rich seeds of the salicornia can be pressed using processing similar to that used for other oil seed crops, such as sunflowers. That oil can then be modified by a proprietary UOP Honeywell process that makes it suitable for blending in jet fuel. The rest of the plant can then be further used to produce liquid fuels, or burned to produce steam for electricity generation.
The company is developing crops that tolerate salty soils.
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Making ethanol from corn is expensive. Better biofuels are years away from the gas tank. Farmers are reluctant to change their practices. But do we really have any alternative to biofuels?
Sequestration of CO2 by diatoms, making limestone, has been going on for billions of years, and has stripped the atmosphere. We're in a CO2 famine, and should be trying to drive the level back up to 2,500 ppm, if only it were possible.
There is no marginal effect on climate; the 1st 20-50 ppm of CO2 had as much effect as the next 400-1000 ppm. We're far past the saturation level.
Drill, dig, and burn, baby, burn!
This is an interesting article. The technology may also be beneficial in producing food crops later on. However all such technologies are based on one very flawed assumption that we should continue on our wasteful lifestyle. If we reduce our automobile usage then all these technologies and inventions can be used to grow food, improve the quality of life of poor people and improve sustainability. At present all such "high tech and sexy" solutions are geared to satisfy the greed of few rich countries.
I think that the US accounting for land-use changes is so important to set the bar higher for the environmental performance of biofuels. This is a move forward for a greener, responsible, economy. I found some great information at www.greencollareconomy.com and they also have a great directory for businesses at www.greencollareconomy.com/Green_Directory/green-building
Sea grass or eel grass are one of fastest growing salt water plants.
Manufacturing in the United States is in trouble. That's bad news not just for the country's economy but for the future of innovation.
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mkogrady
423 Comments
Sustainability Farming
This is cool stuff, and it can be a cash crop when combined with Shrimp and Talapia farming. The photo shows this stuff growing in rows, like it was sown from seeds like many crops are.
However, the paragraph stating "The runoff from that irrigation, now saltier " implies that it's sown like a rice crop, in some type of flood plain, and then harvested when the plant matures and the field drained away.
Is this increased salinity caused by evaporation of the field, or by the plants themselves sucking up water and leaving salt behind?
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