Tropical maize could become biofuel 'super' crop in the US, similar to sugarcane

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Leading experts in organic solar cells say the field is being damaged by questionable reports about ever bigger efficiency claims, leading the community into an endless and dangerous tendency to outbid the last report. In reality these solar cells still show low efficiencies that will need to improve significantly before they become a success. To counter the hype, scientists call on the community to press for independent verification of claimed efficiencies. Biopact sees a similar trend in the field of biofuels from algae, in which press releases containing unrealistic yield projections and 'breakthroughs' are released almost monthly. Eurekalert - October 16, 2007.

The Colorado Wood Utilization and Marketing Program at Colorado State University received a $65,000 grant from the U.S. Forest Service to expand the use of woody biomass throughout Colorado. The purpose of the U.S. Department of Agriculture grant program is to provide financial assistance to state foresters to accelerate the adoption of woody biomass as an alternative energy source. Colorado State University - October 12, 2007.

Indian company Naturol Bioenergy Limited announced that it will soon start production from its biodiesel facility at Kakinada, in the state of Andhra Pradesh. The facility has an annual production capacity of 100,000 tons of biodiesel and 10,000 tons of pharmaceutical grade glycerin. The primary feedstock is crude palm oil, but the facility was designed to accomodate a variety of vegetable oil feedstocks. Biofuel Review - October 11, 2007.

Brazil's state energy company Petrobras says it will ship 9 million liters of ethanol to European clients next month in its first shipment via the northeastern port of Suape. Petrobras buys the biofuel from a pool of sugar cane processing plants in the state of Pernambuco, where the port is also located. Reuters - October 11, 2007.

Dynamotive Energy Systems Corporation, a leader in biomass-to-biofuel technology, announces that it has completed a $10.5 million equity financing with Quercus Trust, an environmentally oriented fund, and several other private investors. Ardour Capital Inc. of New York served as financial advisor in the transaction. Business Wire - October 10, 2007.

Cuban livestock farmers are buying distillers dried grains (DDG), the main byproduct of corn based ethanol, from biofuel producers in the U.S. During a trade mission of Iowan officials to Cuba, trade officials there said the communist state will double its purchases of the dried grains this year. DesMoines Register - October 9, 2007.

Brasil Ecodiesel, the leading Brazilian biodiesel producer company, recorded an increase of 57.7% in sales in the third quarter of the current year, in comparison with the previous three months. Sales volume stood at 53,000 cubic metres from August until September, against 34,000 cubic metres of the biofuel between April and June. The company is also concluding negotiations to export between 1,000 to 2,000 tonnes of glycerine per month to the Asian market. ANBA - October 4, 2007.

PolyOne Corporation, the US supplier of specialised polymer materials, has opened a new colour concentrates manufacturing plant in Kutno, Poland. Located in central Poland, the new plant will produce colour products in the first instance, although the company says the facility can be expanded to handle other products. In March, the Ohio-based firm launched a range of of liquid colourants for use in bioplastics in biodegradable applications. The concentrates are European food contact compliant and can be used in polylactic acid (PLA) or starch-based blends. Plastics & Rubber Weekly - October 2, 2007.

A turbo-charged, spray-guided direct-injection engine running on pure ethanol (E100) can achieve very high specific output, and shows “significant potential for aggressive engine downsizing for a dedicated or dual-fuel solution”, according to engineers at Orbital Corporation. GreenCarCongress - October 2, 2007.

UK-based NiTech Solutions receives £800,000 in private funding to commercialize a cost-saving industrial mixing system, dubbed the Continuous Oscillatory Baffled Reactor (COBR), which can lower costs by 50 per cent and reduce process time by as much as 90 per cent during the manufacture of a range of commodities including chemicals, drugs and biofuels. Scotsman - October 2, 2007.

A group of Spanish investors is building a new bioethanol plant in the western region of Extremadura that should be producing fuel from maize in 2009. Alcoholes Biocarburantes de Extremadura (Albiex) has already started work on the site near Badajoz and expects to spend €42/$59 million on the plant in the next two years. It will produce 110 million litres a year of bioethanol and 87 million kg of grain byproduct that can be used for animal feed. Europapress - September 28, 2007.

Portuguese fuel company Prio SA and UK based FCL Biofuels have joined forces to launch the Portuguese consumer biodiesel brand, PrioBio, in the UK. PrioBio is scheduled to be available in the UK from 1st November. By the end of this year (2007), says FCL Biofuel, the partnership’s two biodiesel refineries will have a total capacity of 200,000 tonnes which will is set to grow to 400,000 tonnes by the end of 2010. Biofuel Review - September 27, 2007.

According to Tarja Halonen, the Finnish president, one third of the value of all of Finland's exports consists of environmentally friendly technologies. Finland has invested in climate and energy technologies, particularly in combined heat and power production from biomass, bioenergy and wind power, the president said at the UN secretary-general's high-level event on climate change. Newroom Finland - September 25, 2007.

Spanish engineering and energy company Abengoa says it had suspended bioethanol production at the biggest of its three Spanish plants because it was unprofitable. It cited high grain prices and uncertainty about the national market for ethanol. Earlier this year, the plant, located in Salamanca, ceased production for similar reasons. To Biopact this is yet another indication that biofuel production in the EU/US does not make sense and must be relocated to the Global South, where the biofuel can be produced competitively and sustainably, without relying on food crops. Reuters - September 24, 2007.

The Midlands Consortium, comprised of the universities of Birmingham, Loughborough and Nottingham, is chosen to host Britain's new Energy Technologies Institute, a £1 billion national organisation which will aim to develop cleaner energies. University of Nottingham - September 21, 2007.

The EGGER group, one of the leading European manufacturers of chipboard, MDF and OSB boards has begun work on installing a 50MW biomass boiler for its production site in Rion. The new furnace will recycle 60,000 tonnes of offcuts to be used in the new combined heat and power (CHP) station as an ecological fuel. The facility will reduce consumption of natural gas by 75%. IHB Network - September 21, 2007.

Analysts fear that record oil prices will fuel general inflation in Kenya, particularly hitting the poorest hard. They call for the development of new policies and strategies to cope with sustained high oil prices. Such policies include alternative fuels like biofuels, conservation measures, and more investments in oil and gas exploration. The poor in Kenya are hit hardest by the sharp increase, because they spend most of their budget on fuel and transport. Furthermore, in oil intensive economies like Kenya, high oil prices push up prices for food and most other basic goods. All Africa - September 20, 2007.

Finland's Metso Power has won an order to supply Kalmar Energi Värme AB with a biomass-fired power boiler for the company’s new combined heat and power plant in Kalmar on the east coast of Sweden. Start-up for the plant is scheduled for the end of 2009. The value of the order is approximately EUR 55 million. The power boiler (90 MWth) will utilize bubbling fluidized bed technology and will burn biomass replacing old district heating boilers and reducing the consumption of oil. The delivery will also include a flue gas condensing system to increase plant's district heat production. Metso Corporation - September 19, 2007.

Jo-Carroll Energy announced today its plan to build an 80 megawatt, biomass-fueled, renewable energy center in Illinois. The US$ 140 million plant will be fueled by various types of renewable biomass, such as clean waste wood, corn stover and switchgrass. Jo-Carroll Energy - September 18, 2007.

Beihai Gofar Marine Biological Industry Co Ltd, in China's southern region of Guangxi, plans to build a 100,000 tonne-per-year fuel ethanol plant using cassava as feedstock. The Shanghai-listed company plans to raise about 560 million yuan ($74.5 million) in a share placement to finance the project and boost its cash flow. Reuters - September 18, 2007.

The oil-dependent island state of Fiji has requested US company Avalor Capital, LLC, to invest in biodiesel and ethanol. The Fiji government has urged the company to move its $250million 'Fiji Biofuels Project' forward at the earliest possible date. Fiji Live - September 18, 2007.

The Bowen Group, one of Ireland's biggest construction groups has announced a strategic move into the biomass energy sector. It is planning a €25 million investment over the next five years to fund up to 100 projects that will create electricity from biomass. Its ambition is to install up to 135 megawatts of biomass-fuelled heat from local forestry sources, which is equal to 50 million litres or about €25m worth of imported oil. Irish Examiner - September 16, 2007.

According to Dr Niphon Poapongsakorn, dean of Economics at Thammasat University in Thailand, cassava-based ethanol is competitive when oil is above $40 per barrel. Thailand is the world's largest producer and exporter of cassava for industrial use. Bangkok Post - September 14, 2007.

German biogas and biodiesel developer BKN BioKraftstoff Nord AG has generated gross proceeds totaling €5.5 million as part of its capital increase from authorized capital. Ad Hoc News - September 13, 2007.

NewGen Technologies, Inc. announced that it and Titan Global Holdings, Inc. completed a definitive Biofuels Supply Agreement which will become effective upon Titan’s acquisition of Appalachian Oil Company. Given APPCO’s current distribution of over 225 million gallons of fuel products per year, the initial expected ethanol supply to APPCO should exceed 1 million gallons a month. Charlotte dBusinessNews - September 13, 2007.

Oil prices reach record highs as the U.S. Energy Information Agency releases a report that showed crude oil inventories fell by more than seven million barrels last week. The rise comes despite a decision by the international oil cartel, OPEC, to raise its output quota by 500,000 barrels. Reuters - September 12, 2007.

OPEC decided today to increase the volume of crude supplied to the market by Member Countries (excluding Angola and Iraq) by 500,000 b/d, effective 1 November 2007. The decision comes after oil reached near record-highs and after Saudi Aramco announced that last year's crude oil production declined by 1.7 percent, while exports declined by 3.1 percent. OPEC - September 11, 2007.

GreenField Ethanol and Monsanto Canada launch the 'Gro-ethanol' program which invites Ontario's farmers to grow corn seed containing Monsanto traits, specifically for the ethanol market. The corn hybrids eligible for the program include Monsanto traits that produce higher yielding corn for ethanol production. MarketWire - September 11, 2007.

Tuesday, October 16, 2007

Tropical maize could become biofuel 'super' crop in the US, similar to sugarcane

Plant geneticists and crop scientists from the University of Illinois who are studying tropical maize have found that when the crop is grown in the US, it does not produce grain, but stores far more sugar in its stalks instead. These findings could make it the ultimate US biofuels crop, and could open the gate to a production process as efficient as that of Brazil's sugarcane based ethanol sector.

Early research led by Fred Below shows that the tropical maize, when grown in the Midwest, does not store energy in grain, but stores it more efficiently in its stalks instead. For this reason it requires few crop inputs such as nitrogen fertilizer, chiefly because it does not produce any ears. It also is easier for farmers to integrate into their current operations than some other dedicated energy crops because it can be easily rotated with corn or soybeans, and can be planted, cultivated and harvested with the same equipment US farmers already have. Finally, tropical maize stalks are believed to require less processing than corn grain, corn stover, switchgrass, Miscanthus giganteus and the scores of other plants now being studied for biofuel production.

What it does produce, straight from the field with no processing, is 25 percent or more sugar - mostly sucrose, fructose and glucose - in its stalks. Without ears, these plants concentrate sugars in their stalks instead of in grain as in ordinary corn. Those sugars could have a dramatic affect on Midwestern production of ethanol and other biofuels.

Corn is a short-day plant, so when we grow tropical maize here in the Midwest the long summer days delay flowering, which causes the plant to grow very tall and produce few or no ears. Midwestern-grown tropical maize easily grows 14 or 15 feet (4-4.5 meters) tall compared to the 7-1/2 feet (2.2 meters) height that is average for conventional hybrid corn. It is all in these tall stalks. In our early trials, we are finding that these plants build up to a level of 25 percent or higher of sugar in their stalks. - Fred Below, University of Illinois crop scientist

The maize differs from conventional corn and other crops being grown for biofuels in that the starch found in corn grain and the cellulose in switchgrass, corn stover and other energy crops must be treated with enzymes to convert them into sugars that can be then fermented into alcohols such as ethanol. The tropical maize stalks won't require such complex and costly bioconversion methods - the sugars contained in them can just be 'squeezed out' and fermented, in a way similar to how ethanol is made from sugarcane.

In terms of biofuel production, tropical maize could be considered the 'Sugarcane of the Midwest'. The tropical maize we're growing here at the University of Illinois is very lush, very tall, and very full of sugar. - Fred Below

Storing simple sugars also is more cost-effective for the plant, because it takes a lot of energy to make the complex starches, proteins, and oils present in corn grain. By storing sugars in stalks, these energy savings per plant could result in more total energy per acre with topical maize, since it produces no grain.

Early trials also show that tropical maize requires much less nitrogen fertilizer than conventional corn, and that the stalks actually accumulate more sugar when less nitrogen is available. Nitrogen fertilizer is one of major costs of growing corn. Below explained that sugarcane used in Brazil to make ethanol is desirable for the same reason:

energy :: sustainability :: biomass :: bioenergy :: biofuels :: ethanol :: genetics :: sugarcane :: maize :: sugar :: nitrogen :: efficiency ::

it produces lots of sugar without a high requirement for nitrogen fertilizer, and this sugar can be fermented to alcohol without the middle steps required by high-starch and cellulosic crops. But sugarcane can't be grown in the Midwest.

The tall stalks of tropical maize are so full of sugar that producers growing it for biofuel production will be able to supply a raw material at least one step closer to being turned into fuel than are ears of corn.

Growing tropical maize doesn't break the farmers' rotation. You can grow tropical maize for one year and then go back to conventional corn or soybeans in subsequent years. Miscanthus, on the other hand, is thought to need a three-year growth cycle between initial planting and harvest and then your land is in Miscanthus. To return to planting corn or soybean necessitates removing the Miscanthus rhizomes. - Fred Below

Below is studying topical maize along with doctoral candidate Mike Vincent and postdoctoral research associate Matias Ruffo, and in conjunction with University of Illinois Associate Professor Stephen Moose. This latest discovery of high sugar yields from tropical maize became apparent through cooperative work between Below and Moose to characterize genetic variation in response to nitrogen fertilizers.

Currently supported by the National Science Foundation, these studies are a key element to developing maize hybrids with improved nitrogen use efficiency. Both Below and Moose are members of the Illinois Maize Breeding and Genetics Laboratory (), which has a long history of conducting research that identifies new uses for the maize crop.

Moose now directs one of the longest-running plant genetics experiments in the world, in which more than a century of selective breeding has been applied to alter carbon and nitrogen accumulation in the maize plant. Continued collaboration between Below and Moose will investigate whether materials from these long term selection experiments will further enhance sugar yields from tropical maize.

References:
University of Illinois: Tropical Maize for Biofuels - October 16, 2007.

Eurekalert: If corn is biofuels king, tropical maize may be emperor - October 15, 2007.

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