BP biofuels head eyes jatropha, butanol

BP Plc is focusing on developing jatropha and butanol for sustainable biofuel output, its head of biofuels said on Tuesday, as the industry faces mounting pressure for its environmental and social impact.

Philip New, president of BP's Global Biofuels division, said that although the firm were major users of ethanol, there was now scope to use supplements such as butanol which is similar to gasoline but can be made from biomass.

"Butanol appears to have the best balance of attributes: more energy efficiency, easier to blend and easier to transport," New told in an interview.

He said the firm was counting on the oilseed plant jatropha, a woody plant that can grow on barren, marginal land, as it seeks to develop more distinctive and sustainable technologies.

"Jatropha plays into that because it's not a food source. It's delinked from fuel prices and we're excited about its ability to be grown on marginal land," New said.

"When I see jatropha being intercropped with cabbages and other foodstuffs, it does feel like it is something that can be grown sustainably in lots of developing world environments."

But experts and industry officials have warned that jatropha does not offer an easy answer to biofuel's problems, because it can be toxic and yields can be unreliable.

New said more traditional forms of biofuels, such as bioethanol from sugar cane, were likely to remain the main sources in the short to medium term.

"ABSOLUTELY VALID"

"It feels as though biofuels made from sugar cane will be an important part of the mix for the foreseeable future."

New defended the biofuels industry against recent criticism that it had raised food prices and could also harm the environment.

"Biofuels done well are absolutely valid green fuels," he said.

"Bioethanol made from rain-irrigated Brazilian cane can generate greenhouse gas savings of 85 percent. There are also examples of biofuels done badly. But this is a complicated world, and it's a shame to categorise it all as one."

The UN Special Rapporteur on the right to food recently described it as a "crime against humanity" to convert food crops to fuel and called for a five-year moratorium on biofuels.

But New said he was optimistic that the biofuels industry could be developed in such a way that it was able to live side by side with the food industry.

He said the firm was looking at a range of technologies aside from jatropha and butanol, including algae.

"Algae looks like a very promising technology," New said.

Algae converts carbon dioxide, the main greenhouse gas blamed for global warming, into a vegetable oil.

It does not need prime farmland, vast quantities of fertiliser, or large harvest vehicles to be grown and harvested, unlike corn, one of the feedstocks for ethanol.

Shell's biofuel bets

Ethanol and biodiesel are two of the fuel options energy giant, Shell is looking at for the future and the firm is bringing some rigour to the investigation.

Shell claims to be the biggest biofuels distributor in the world, shifting around 3bn litres of bioethanol and other biofuels in 2005, equivalent to the total amount of gasoline consumed in the UK that year.

So where’s Shell making its bets? Conversations at yesterday’s press-only fuel open-day revolved around biofuels for sure, but the big thrust in the short term is into gas-to-liquids. This is a technology that can turn methane gas into diesel. Not as green as existing cracking processes, it uses more energy, but the fuel is distinctly cleaner, Shell says. The technology is not quite a cinch, but at 50 years old, (it was developed by the Germans during WW2) it is pretty well understood. Also diesel made this way can be a direct, drop in replacement for conventionally refined diesel. So there are no worries about compatibility. There is no need to develop new engines to accommodate them.

China's big oil looks to biofuels

Biodiesel and ethanol are high on the radar of China's big oil companies. According to the People's Daily on Friday last week China's oil giants explore biofuels in their vision of the future...

China's oil giants...are making tentative moves into the green fuels sector. Earlier this month, China National Petroleum Corporation (CNPC), China's largest oil producer, signed an agreement with the Sichuan provincial government to develop bio-fuel in the southwestern basin famous for its agricultural industry and natural gas reserves.

They plan to produce 600,000 tons of automotive-grade ethanol made from sweet potatoes each year and 100,000 tons bio-diesel made from the seeds of jatropha curcas tree. CNPC has negotiated with four foreign companies on the introduction of the bio-diesel technology, the company said at its official website.

BP and D1 Oils form jatropha biodiesel feedstock JV

LONDON (ICIS news)--BP plans to form a joint venture with biofuels firm D1 Oils to speed up the planting of jatropha trees, a feedstock for biodiesel production, the energy giant said on Friday.

Over the next five years the 50/50 joint venture D1-BP Fuel Crops would invest around $160m (€119m) on planting over 1m hectares of the oilseed bearing plant, BP said.

D1 Oils planned to include 172,000 hectares of existing plantations in India, southern Africa and southeast Asia as part of its investment, while BP would gain exclusive access to the seedlings produced by D1’s plant science programme.

“As jatropha can be grown on land of lesser agricultural value with lower irrigation requirements than many plants, it is an excellent biodiesel feedstock,” said head of BP Biofuels Phil New.

“D1 Oils' progress in identifying the most productive varieties of jatropha means that the joint venture will have access to seeds which can substantially increase jatropha oil production per hectare,” he added.

BP said D1-BP Fuel Crops would concentrate on cultivating the crops in southeast Asia, southern Africa, Latin America and India, expecting to produce up to 2m tonnes/year of jatropha oil once the plantations were established.

Earlier this week BP announced its first foray into biofuels production with plans to build a bioethanol plant and a biobutanol demonstration facility in the north of England.

D1 Oils is a UK-based biodiesel producer established in October 2004. It reported an operating loss in 2006, with high feedstock prices reducing margins.

Desi Power - Find out about Desi Power - Biomass power generation in India

India suffers from terrible rural electricity shortages, primarily in remote areas which contain huge amounds of unused land. An initiative called Desi Power (Local Power) believe that 100,000 small (100kW) biomass generators could solve the problem simply by converting locally grown rotting weeds into electricity. There is no way that india could extend its national electricity grid to the country's furthest reaches, and so locally produced electricity for local consuption is the only way to bring electricity (and the associated economic boom and employment prospects) to the most remote parts of India. Sadly the Indian government's current policy favours 'ultra-mega' power projects with huge power stations being built near to mines and energy ports, and the generated electricity transmitted through a (currently unbuilt) network of cables. This will help prevent the current frequent city power cuts, but will still leave rural Indians without power.
BBC News report - Can a bush solve rural energy needs?

What Is Jatropha - Find out more about Jatropha - a biofuel crop

Jatropha Curcas is an excellent biofuel crop which has many other advantages over existing crops.
The biofuel yield of various crops has been measured, and is usually given in barrels of oil per square mile per year. Corn is a common biofuel crop in the USA, but it yields under 200 barrels (per square mile per year). Rice for example yields almost 1000 barrels, however it is an essential worldwide food crop as are most of the other potential biofuel crops.
It is simply not viable to use good quality arable farmland for growing biofuels, biofuel crops need to be grown on marginal land if we are to benefit from them. This is where Jatropha scores highly. Not only does it have a great yield of well over 2,000 barrels of oil per square mile per year, it also increases the fertility of the land on which it is grown so that it can potentially be used for food crops in subsequent years.

Jatropha is perennial which can grow in arid conditions (even deserts), on any kind of ground, and does not require irrigation or suffer in droughts. Therefore unlike the common biofuel crops of today (corn and sugar), they are very easy to cultivate even on poor land in Africa providing great social and economic benefits for that region.

Jatropha is fast growing and it begins yielding oil in the second year and for the next forty to fifty years. Optimal yields are obtained from the sixth year, and spaced at 2 metre intervals, around 2500 plants can be cultivated per hectare. Jatropha absorbs large amounts of carbon dioxide from the atmosphere and therefore earns carbon credits.

Find out more about Jatropha and its use as a biofuel here with our guide to the facts and figures about Jatropha.

Biodiesel Recipe - Read a recipe for making biodiesel

The recipe for making biodiesel is very simple although there are plenty of dangers involved. This recipe is here for information purposes only and we do not recommend that you attempt to make biodiesel at home. Protective chemical proof gloves, an apron, and goggles must be worn, and vapours released are poisonous so a dust mask is recommended.

Vegetable oil is too thick to use directly in a diesel car's engine. Therefore its viscosity must be reduced using a chemical process which strips the glycerin from the esters (vegetable molecules). By replacing the glycerin with an alcohol (methanol or ethanol) by the process of transestrification we obtain a useable fuel - biodiesel. As vegetable oil is acidic, an alkaline (sodium hydroxide NaOH also known as lye or caustic soda) is used to break the molecules.

The following details are for new unused oil. If you intend to use old vegetable oil then the amount of sodium hydroxide must be modified to take into account the increased acidity and extra free fatty acids that need to be neutralised before they gunge up your fuel lines.

To make a sample amount of biodiesel - e.g. 1 litre you need the following:
1. 1 litre of vegetable oil.
2. 200 millilitres of methanol (95% pure).
3. 5 grams of sodium hydroxide.

The first step is to dissolve the sodium hydroxide in the methanol to generate sodium methoxide. This must NOT be done in a plastic bottle as the sodium hydroxide will attact the bottle and fill it with holes. Instead use a large glass jar with a very tightly fitting lid. Drop the sodium hydroxide into the methanol, replace the lid immediately, and shake/swirl the mixture for around 10 minutes until all of the sodium hydroxide has dissolved. A lot of heat will be generated during this process.
Then this solution is added to the vegetable oil which has been pre-heated to 60°C. Get a 2 litre plastic drinks bottle and a funnel. Pour the warm oil through the funnel into the bottle and then (in a well ventilated area) add the methoxide. Remove the funnel and replace the top on the bottle screwing it down tightly. Shake the bottle vigorously for 30 seconds. For best results shake the mixture for 5 seconds four times over the space of one hour.
The mixture can then be left to settle with biodiesel appearing at the top, and glycerine at the bottom. Within an hour most of the glycerine will have settled out, but it is best to leave the mixture overnight to settle more fully. Next morning slowly pour off the biodiesel to use as fuel and put the glycerine on your compost heap or use it to make soap.

To improve the quality of your biodiesel it should be washed in order to remove the soap it contains. To do this pour your one litre of biodiesel into another two litre bottle. Add 1/2 litre of 40°C water gently to the bottle. Replace the bottle top tightly and then turn the bottle end over end gently for 30 seconds. As long as you are gentle, the cloudy (soapy) water and biodiesel will seperate quickly. Turn the bottle upside down and slowly release the water (which will form a layer at the bottom) using your thumb as a valve. Repeat this process 2 or 3 times slowly increasing the level of agitation and the length of time you rotate the bottle. By wash four and five you can shake the bottle fairly vigorously. If you shake the bottle too early you will create an emulsion that will take days if not weeks to settle out. When you have finished the water should come out of the bottle pretty much clear. Then you can leave the biodiesel for a couple of days to settle and dry afterwhich it will be clear and ready to use as fuel in your diesel engined car.

Interesting sites dealing with biofuels for developing countries are:

Interesting sites dealing with biofuels for developing countries are:

Jatropha Curcas
The Jatropha System (Henning)	http://www.jatropha.de/
A Planta Pinhao Manso	http://www.pinhaomanso.com.br/
MFC Mali Folkecenter	http://www.malifolkecenter.org/
STRO - Gota Verde project	http://www.gotaverde.org
DAJOLKA	http://www.dajolka.dk/
Wageningen University (WUR)	http://www.jatropha.wur.nl/
Jatropha biodiesel - India	http://www.jatrophabiodiesel.org/index.php
Jatropha/ algae biofuel	http://www.ebtplc.com/index.htm
Jatropha genetics	HHMI
Purdue University on Jatropha	Purdue University
Tree Borne Oilseeds (TBO)	http://www.pcra-biofuels.org/biodiesel.htm
Jatropha gene bank	http://www.pcra-biofuels.org/utt.htm
Ecoport - Jatropha genome	Ecoport
Diligent Energy Systems	http://www.diligent.nl/
Jatropha in China	Chinese Academy of Sciences
Jatropha Cambodia	http://environmental.scum.org/biofuel/jatropha/
Jatropa in PPP	People Planet Profit
Jatropha world - India	http://www.jatrophaworld.org/
Jatropha article	Australian news
Jatropha seed pressing	German study on oil pressing

Algae
FAO Algae biofuels info	http://www.fao.org/docrep/w7241e/w7241e0h.htm
UNH Biodiesel Group	http://www.unh.edu/p2/biodiesel/article_alge.html
Peswiki Algae Information	Peswiki
Green Fuel Technologies	http://www.greenfuelonline.com/technology.htm
Global Green Solutions	Global green solutions
Oil Algae	http://www.oilalgae.com/
Oil Algae (1)	Oil Algae 1
Oil Algae (2)	Oil Algae 2
Oil Algae Extraction	Oil Algae 3
Algae pictures	Algae pictures
Article Ecoworld	Ecoworld
Solazyme	http://www.solazyme.com/about.shtml
Algenfarm	http://www.algenfarm.de
Steinberg Bioprodukte	http://www.bioprodukte-steinberg.de
Blue Biotech	http://www.bluebiotech.de
Acadian Sea Plants	http://www.acadianseaplants.com

Oil Palm
Smallholder Palm Oil Manual	Ecoport
Oil Palm Book	blackwell publishers
Seeds/ seedlings	http://www.ghopeseeds.com/

Artificial Photosynthesis
Sweden - Uppsala	biomimetics
Photoscience - Arizona	photoscience
Massachussetts Inst. Tech.	Massachussets MIT

Useful Links

• Suppliers of Jatropha Seeds with International Delivery:
  
  • Jatrophaseeds
  • Jatrophaplantsource.
• Jatropha plantation from 'Soil to Oil'
• A Self-help Assistance Program's Jatropha Tree Planting Project
• Jatropha Facts and Figures
• Jatropha Plant power can solve fuel problem
• An Integrated Approach of Rural Development in Tropical & Subtropical Countries.
• The worldwide online Jatropha Portal
• Forum Jatropha - http://www.jatropha.forumactif.com
• Size does matter - The possibilities of cultivating Jatropha curcas for biofuel production in developing countries. Case study report on the relationship with food security. Contains lots of references and background information.
• "Mali’s Farmers Discover a Weed’s Potential Power", New York Times, September 9, 2007. Retrieved on 2007-09-09.

• Integrated Taxonomic Information System (ITIS) Jatropha Curcas
• Center of Excellence for Jatropha Biodisel Promotion
• Forum : "Jatropha curcas : l'or vert du désert" - (French)
• Bio Fuel production and reduction of deforestation in Nepal by R. Pahari.
• Geo magazine, May 2007 edition (in German).

Call for papers of the International Workshop on JCL industry development (Hainan)

1. An abstract in both Chinese and English version should be submitted before 10^th September 2007. The Chinese abstract should not exceed 200 words and the English version should not exceed 400 words.

2. The full paper should be submitted before 25^th September 2007. The paper may be submitted in either Chinese or English version.

3. Please send the abstract and paper by email to the paper solicitation team of workshop organizing committee (xuying.em@gmail.com ) together with a color photograph and resume (both Chinese and English) of the lead author.

For detailed information, please contact:

Xu Ying, mobile phone: +8613550345233

Tang Lin, mobile phone: +8613980549118

Tel: +86(0)28-85417281

Fax: +86(0)28-85417281

Email: xuying.em@gmail.com

Website: www.jatropha.com.cn, www.cct.org.cn

Notice of an International Workshop on the Development of the Jatropha Curcas L. Industry (Hainan Island, China)

Invitation Letter for an International Workshop on JCL Industry Development (Hainan Island)

The “Convention on Biological Diversity”, issued by United Nations in 1998, identified oil from JCL as an excellent substitute for diesel oil. Many countries are now starting to recognize JCL as an important bio-energy resource and an important part in their sustainable energy development strategy. To date, nearly 40 countries have plans to plant JCL and commercialize JCL bio-diesel production.

In order to exchange experiences of JCL bio-diesel industrialization and its impact on green poverty alleviation and to promote the rapid and sustainable development of the JCL bio-diesel industry, an “International Workshop on JCL Industry Development (Hainan)” will be held from 29-31^st October 2007 in Xinguo Hotel, Haikou, Hainan, PRC. The Workshop will be: sponsored by CICETE; supported by Beijing office of UNDP, Energy Research Institute of National Development and Reform Commission, Chinese Renewable Energy Society, Chinese Energy Research Society and the implementing office of Green Poverty Alleviation Project; and organized by Renewable Energy Society of Hainan.

Theme of the Workshop: Development of JCL and bio-diesel industry

Key words: JCL Bio-diesel – An Energy Choice for Tomorrow

Topics for discussion will include:

• JCL seed resource and biological diversity;
• JCL large-scale planting and ecological safety;
• processing technologies and standards of JCL bio-diesel;
• comprehensive utilization of JCL resources;
• commercial modeling for green poverty alleviation and participatory development; and
• bio-energy industry development policies and renewable energy strategies.

The workshop will be a key international meeting in the development of bio-energy industry during 2007 and will attract a multi-national audience with participants from China, Africa, Central and South America, South-east Asia, India and Europe. These will include representatives from: UN offices; relevant governmental administrations; JCL R&D organizations; universities and colleges; leading domestic and foreign energy enterprises; multi-national companies; and financial and investment institutions.

The workshop organizers will also invite officers and advisors from relevant government departments, recognized academics in the field, technical experts and senior managers from UN, domestic and foreign research institutes, multi-national companies and leading energy enterprises to present topical lectures.

It will be our pleasure to invite you to attend the workshop and we are looking forward to seeing you in October on the beautiful island of Hainan. We hope that we can achieve widespread and continuing exchange and co-operation and, in doing so, create a better future together for JCL green energy industry.

Participant costs:

1. The registration fee is 1000RMB for domestic participants and US$150 for foreign participants. This includes the cost of workshop materials, morning tea/coffee, lunch and dinner.

2. Accommodation options include:

A. Luxury salon, Japanese-style room with king size bed (including service fee and western breakfast for two persons)

For foreign participants: US$90 per room

B. Luxury salon, Japanese-style double standard room (including service fee and western breakfast for one person)

For foreign participants: US$90 per room.

3. There will also be an optional 1-3 days’ tour to Hainan Island after the workshop. If participants decide to join this tour, there will be an additional cost (further details will be provided in a follow-up notice).

Matters not mentioned herein could be seen in the follow-up notices.

Organizing Committee

International Workshop on JCL Industry Development (Hainan)

July 10, 2007

Biofuels will help fight hunger

The first decades of the 20th Century heralded the automobile era. At the time, it was said that it would not be safe to trade the reliability of a horse for the uncertainty of an automobile. After all, the horse was always available and ran on alfalfa, clearly an abundant raw material. It was then too risky to trust gasoline, some argued, since it could become scarce in a few years.

Today, as we are again facing the challenges of changing our energy matrix, it is important to clearly establish what is reality and what is myth regarding biofuels.

The reality is that if we maintain the current rate of oil consumption without major reductions in carbon emissions, we will surely be heading in the direction of unprecedented climate change and natural disasters. It is also a fact that if oil demand continues to increase, prices will skyrocket, terribly affecting poor countries. The International Energy Agency itself admits that increasing demand and irregular supply will impose additional pressure on prices, which in turn will also be affected by higher extraction costs of new reserves (deep waters, heavy and extra-heavy oil). Additionally, the increase in oil prices will have serious consequences on the price of food products. More expensive fertilizers will become less accessible to farmers in poor countries. Sharp increases in transportation costs will reduce the access to food for millions. Therefore, higher oil prices will surely mean less food consumption.

One of the most common myths is that biofuels will necessarily compete with food production. Nowadays, the largest food producers are the developed countries that strongly subsidize their agriculture. In developing countries, with few exceptions, large scale food production does not occur: They simply cannot compete with rich countries' agricultural subsidies. It is more cost-effective to import products offered as food aid from developed countries, or sold at subsidized prices, than to produce locally.

Production of biofuels in developing countries would change this picture. Large extensions of unutilized arable land in the Southern Hemisphere would be employed for highly profitable biofuel-oriented crops, restructuring the agricultural sector. Millions of jobs would be generated, thus increasing income, exports and food purchasing power of the poorest. Furthermore, production of biofuels in the South would help avoid redirecting the use of food-producing land in the North for this purpose.

In Brazil, biofuels production has grown alongside with increasing food crops. It is lack of income that fuels hunger, not the use of biofuels. Experience has proven that Biofuels production generates income, increasing food consumption. The Brazilian ethanol industry generates one million direct jobs and up to six million indirect jobs. Biodiesel benefits 224 thousand low-income families.

Another myth is that the production of biofuels threatens the Amazon rain forest. It should be noted that between 2004 and 2006, a period of strong growth in the Brazilian biofuels production, the Amazon rain forest deforestation rate was reduced by 52 percent. Also, large sugar cane plantations are located at least 1,000 kilometers away from the Amazon region, where it is not possible to efficiently grow sugar cane, due to the high humidity, which prevents saccharose from forming.

Biofuels also could contribute to reduce carbon emissions through the use of degraded lands. In the case of Brazil, we use less than 10 percent of all arable land for sugar cane cultivation. There are, however, 150 million hectares of degraded pasture land that the Brazilian Government is working to recover. This land will receive a vegetal cover from sugar cane, thus contributing to reduce carbon emissions.

In order to ensure that the development of biofuels production takes place while contributing to the improvement of social and environmental conditions, as announced by President Luiz Inácio Lula da Silva, Brazil will organize a national technical, social and environmental certification system. This will allow us to constantly verify the sustainability of our production.

Nowadays, world energy resources are concentrated in 20 countries. Biofuels will allow a true democratization of the international market, as over 100 countries will be producing energy for the world. There is no doubt about the fact that this is a great change, maybe as revolutionary as the one that began in the early 20th Century. After all, the transition from animal traction to petroleum was antipodal to environmental sustainability. Today, we can correct this and, at the same time, contribute to the generation of employment and wealth in the countries of the South - much to the benefit of the global community.

Jatropha in Nature

Jatropha in Nature

Myanmar outlines alternative energy strategy

MYANMAR: Myanmar plans to cultivate jatropha on 7 million acres of land as feedstock for biodiesel plants around the country as part of a move to diversify into alternative energy sources, Director General of the Energy Department U Soe Myint said at a forum held in Singapore.

Each of the seven states and seven divisions in Myanmar is expected to plant jatropha on 500,000 acres of unused land and build their own biodiesel processing plants, Myint said, adding that a large portion of the biodiesel produced is likely to be exported to other countries.

Myanmar will also be investing in hydropower and wind energy projects. The junta-led government had earlier indicated plans to implement six hydropower projects with a total capacity of more than 4,000 MW in the country's Shan and Kachin states to help meet the country's power demand.

Poison plant could help to cure the planet

The jatropha bush seems an unlikely prize in the hunt for alternative energy, being an ugly, fast-growing and poisonous weed. Hitherto, its use to humanity has principally been as a remedy for constipation. Very soon, however, it may be powering your car.

Almost overnight, the unloved Jatropha curcushas become an agricultural and economic celebrity, with the discovery that it may be the ideal biofuel crop, an alternative to fossil fuels for a world dangerously dependent on oil supplies and deeply alarmed by the effects of global warming.

The hardy jatropha, resilient to pests and resistant to drought, produces seeds with up to 40 per cent oil content. When the seeds are crushed, the resulting jatropha oil can be burnt in a standard diesel car, while the residue can also be processed into biomass to power electricity plants.

As the search for alternative energy sources gathers pace and urgency, the jatropha has provoked something like a gold rush. Last week BP announced that it was investing almost £32 million in a jatropha joint venture with the British biofuels company D1 Oils.

Even Bob Geldof has stamped his cachet on jatropha, by becoming a special adviser to Helius Energy, a British company developing the use of jatropha as an alternative to fossil fuels. Lex Worrall, its chief executive, says: “Every hectare can produce 2.7 tonnes of oil and about 4 tonnes of biomass. Every 8,000 hectares of the plant can run a 1.5 megawatt station, enough to power 2,500 homes.”

Jatropha grows in tropical and subtropical climates. Whereas other feed-stocks for biofuel, such as palm oil, rape seed oil or corn for ethanol, require reasonable soils on which other crops might be grown, jatropha is a tough survivor prepared to put down roots almost anywhere.

Scientists say that it can grow in the poorest wasteland, generating topsoil and helping to stall erosion, but also absorbing carbon dioxide as it grows, thus making it carbon-neutral even when burnt. A jatropha bush can live for up to 50 years, producing oil in its second year of growth, and survive up to three years of consecutive drought.

In India about 11 million hectares have been identified as potential land on which to grow jatropha. The first jatropha-fuelled power station is expected to begin supplying electricity in Swaziland in three years. Meanwhile, companies from Europe and India have begun buying up land in Africa as potential jatropha plantations.

Jatropha plantations have been laid out on either side of the railway between Bombay and Delhi, and the train is said to run on more than 15 per cent biofuel. Backers say that the plant can produce four times more fuel per hectare than soya, and ten times more than corn. “Those who are working with jatropha,” Sanju Khan, a site manager for D1 Oils, told the BBC, “are working with the new generation crop, developing a crop from a wild plant — which is hugely exciting.”

Jatropha, a native of Central America, was brought to Europe by Portuguese explorers in the 16th century and has since spread worldwide, even though, until recently, it had few uses: malaria treatment, a windbreak for animals, live fencing and candle-mak-ing. An ingredient in folk remedies around the world, it earned the nickname “physic nut”, but its sap is a skin irritant, and ingesting three untreated seeds can kill a person.

Jatropha has also found a strong supporter in Sir Nicholas Stern, the government economist who emphasised the dangers of global warming in a report this year. He recently advised South Africa to “look for biofuel technologies that can be grown on marginal land, perhaps jatropha”.

However, some fear that in areas dependent on subsistence farming it could force out food crops, increasing the risk of famine.

Some countries are also cautious for other reasons: last year Western Australia banned the plant as invasive and highly toxic to people and animals.

Yet a combination of economic, climatic and political factors have made the search for a more effective biofuel a priority among energy companies. New regulations in Britain require that biofuels comprise 5 per cent of the transport fuel mix by 2010, and the EU has mandated that by 2020 all cars must run on 20 per cent biodiesel. Biodiesel reduces carbon dioxide emissions by nearly 80 per cent compared with petroleum diesel, according to the US Energy Department.

Under the deal between BP and D1, £80 million will be invested in jatropha over the next five years, with plantations in India, southern Africa and SouthEast Asia. There are no exact figures for the amount of land already under jatropha cultivation, but the area is expanding fast. China is planning an 80,000-acre plantation in Sichuan, and the BPD1 team hopes to have a million hectares under cultivation over the next four years.

Jatropha has long been prized for its medicinal qualities. Now it might just help to cure the planet.

- D1 Oils, the UK company leading the jatropha revolution, is growing 430,000 acres of the plant to feed its biodiesel operation on Teesside — 44,000 acres more than three months ago, after a huge planting programme in India. It has also planted two 1,235-acre trial sites this year in West Java, Indonesia. If successful, these will become a 25,000-acre plantation. Elloitt Mannis, the chief executive, says that the aim is to develop energy “from the earth to the engine”.

Jatropha: costs and benefits

- Jatropha needs at least 600mm (23in) of rain a year to thrive. However, it can survive three consecutive years of drought by dropping its leaves

- It is excellent at preventing soil erosion, and the leaves that it drops act as soil-enriching mulch

- The plant prefers alkaline soils

- The cost of 1,000 jatropha saplings (enough for one acre) in Pakistan is about £50, or 5p each

- The cost of 1kg of jatropha seeds in India is the equivalent of about 7p. Each jatropha seedling should be given an area two metres square.

- 20 per cent of seedlings planted will not survive

- Jatropha seedlings yield seeds in the first year after plantation

From Jatropha Oil to Biodiesel - The Jatropha Project in India

In a simple process plant oil is converted into bio diesel fuel. Crossing India a Mercedes-Benz C-Class tested the fuel on the road.

Oil is extracted from the jatropha seeds, which can be processed to high-quality bio diesel.

From Jatropha Oil to Biodiesel

Parallel to the search for the most effective way to cultivate the jatropha plant, the project partners are pursuing another important goal: the development of a simple and economical process for converting the plant oil extracted from the oilseed into high-quality biodiesel fuel. For this purpose, the scientists at CSMCRI have set up three small pilot plants in Bhavnagar that have a combined production capacity of 100 liters of biodiesel per day.

In these chemical mini-factories, the jatropha oil is subjected to a process called transesterification. Plant oils - those derived from jatropha as well as the oilseed rape and soya beans from which biodiesel is produced in Europe and the U.S. - consist mainly of triglycerides, the fatty acid esters of glycerin. They are extremely viscous and tend to resinification - qualities that are not desirable inside a fuel tank.

Transesterification, in which the glycerin is replaced by methanol, makes it possible to use the processed plant oil as fuels. However, that’s only the first step in the transformation of plant oil into biodiesel. After transesterification, the resulting raw product is centrifuged and washed with water to cleanse it of impurities, such as glycerin and excess methanol. Only at the end of this process is the biodiesel of usable quality.

The CSMCRI team was not willing to wait until after the first harvest in order to start the search for the right process for refining jatropha oil, so it bought eight tons of jatropha nuts that farmers had gathered from wild plants in various parts of India. By spring 2004, the team had extracted a total of 1,300 liters of high-quality biodiesel from this raw material using a variety of processes. The biodiesel was passed to DaimlerChrysler India, which used it to fuel an eye-catching round trip through the country. A Mercedes-Benz C 220 CDI specially modified to use jatropha biodiesel toured the country between April and May 2004, covering around 5,900 kilometers and visiting 11 major cities on a route extending from Pune to Bangalore, Hyderabad, Mumbai and Delhi.

Powered by diesel fuel made of jatropha seeds this Mercedes-Benz C 220 CDI covered a distance of 5900 kilometers across India.

The results of the experiment have been very satisfactory for two reasons. Firstly, it has revealed that jatropha-based biofuel can be used without any problems in modern CDI engines adapted for biodiesel. What’s more, this fuel produces only half of the unburned hydrocarbon emissions and one-third of the particulate emissions produced by diesel fuel derived from crude petroleum.

Secondly, the team from DaimlerChrysler India received a tremendous amount of public interest. According to George Francis from the project team headed by Klaus Becker in Hohenheim, two more Indian states are now in the process of setting up and financing jatropha cultivation in wasteland areas.

The fuel specialists at DaimlerChrysler Research, under the leadership of Rudolf Maly, have now taken an in-depth look at the quality of biodiesel made from jatropha. “This fuel has not yet reached optimal quality, but it already fulfills the EU norm for biodiesel quality,” says Maly. “That’s a remarkable achievement, in view of the simple production processes involved.” Maly’s team subjected the emissions associated with jatropha biodiesel to tough laboratory tests that confirmed their Indian colleagues’ observations of the advantages of this fuel. In addition, this renewable fuel’s high cetane values, very low sulfur content and high oxygen content give it excellent combustion properties. Processing of biodiesel using jatropha seeds.

“What’s more, the CO2 balance of fuels derived from renewable energy sources is much better than that of fuels based on crude oil,” Maly adds. After all, the combustion of biodiesel releases only the amount of CO2 that the plant removed from the atmosphere when it was growing. Only the amount of energy used for the cultivation, harvesting and transport of the plants plus the energy needed to produce biodiesel affects the CO2 balance. And in principle, it is possible to significantly reduce that energy figure.