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Volvo Trucks' Successful Bio-DME Tests Offer Another Viable Alt Fuel Option +VIDEO

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Bio-DME, a fuel that can be produced from biomass both cost and energy efficiently. For the transport industry, this could reduce dependence on oil and thereby reduce the environmental impact.

SEE ALSO: Fuel for Automotives from Paper Waste

STOCKHOLM - June 3, 2012: Since last autumn, ten specially adapted Volvo trucks have been operating on Swedish roads. They do not stand out in the traffic – they do not travel more slowly and they do not look any different – but they are revolutionary. The reason is that they are powered by bio-DME, a fuel that is produced from biomass – in other words, renewable, totally natural raw materials – which reduces carbon emissions by 95 per cent compared with diesel. The field tests have now reached the halfway point and the results so far have both met and exceeded expectations.

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“We have, for example, demonstrated both that the technology works in practice, when it comes to both the production of fuel and trucks in traffic, and that the infrastructure with filling stations in different parts of Sweden works effectively. The test results bode well for the future,” says Lars Mårtensson, environmental director at Volvo Trucks.

The field tests, which are being conducted in collaboration with companies including Preem and the Swedish company, Chemrec, which is responsible for fuel production, has aroused interested worldwide – an unexpected bonus, according to Lars Mårtensson.

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“We have shown that it’s possible to take an idea from the laboratory to full-scale operation and we have also successfully spread this knowledge all over the world. There is now a clear-cut interest from countries including China, Russia and the USA and they are markets with huge potential,” he says.

Bio-DME, dimethyl ether produced from biomass, is a liquid, so-called second-generation biofuel that can be made from wood or by-products and waste from agricultural production. “According to the calculations, bio-DME could replace up to 50 per cent of the diesel that is currently being consumed by commercial vehicles in Europe within the next 20 years. We have a chance to make a fantastic contribution to help the environment,” he adds.

The bio-DME that is being used in the Volvo Trucks field tests is made from black liquor, a by-product from the production of pulp. The black liquor is actually used in the flow of energy that powers the pulp mill. Chemrec’s process takes part of the black liquor, gasifies it and turns it into usable fuel which can currently, during the on-going field tests, be obtained at four filling stations in different parts of Sweden.

To date, the drivers who are operating the trucks in the field tests have reported that everything is as expected, which is a major success for the project – filling up with biofuel and driving should not be more complicated in any way or constitute a disadvantage in terms of performance. Yngve Holm is transporting pulpwood in northern Sweden in a DME-adapted Volvo FH 440. He is one of the test drivers and he has also reported a number of advantages, such as lower noise levels and, first and foremost, environmental aspects. “I can drive about 650 kilometres on one tank and the truck runs just as well as it does on any other fuel. It is actually much quieter, both internally and externally.”

He has been participating in the field tests since last September and so far he has driven 40,000 kilometres. He has also been asked many questions about the new fuel. “Many people are curious and want to know how it works. I usually say that it works really well. The most important thing is that we are doing something for the environment and the future and that’s good for the soul, as I see it.”

The bio-DME he is using is produced just a stone’s throw from the filling station he uses, at the Chemrec plant in Piteå in northern Sweden, next to the Smurfit-Kappa Kraftliner paper mill. This plant is the first of its kind in the world. The process takes place in a high structure with no walls, consisting entirely of stainless pipes, stairs and tanks that make up a complicated system. Chemrec has quite simply connected itself to the existing mill infrastructure and set up another production line at the mill. It is then able to demonstrate on a small scale a highly cost- and environmentally-effective method for producing bio-DME. The capacity is approximately four tonnes of bio-DME a day.

“Bio-DME is produced in three stages. After collecting the black liquor from the pulp mill, we convert it into gas using pure oxygen and thereby produce syngas, a gas that can be synthesised. We wash the gas and then convert it to bio-DME. After that, the quality is checked and the fuel is transferred to a large tank near the mill for storage. The mill is then compensated with biomass known as forest slash, which is branches and the tops of trees that are left over when forests are cut down – a highly effective form of energy exchange,” explains Ingvar Landälv, technical director at Chemrec.

Bio-DME production is still in its infancy, but the potential is enormous. “At the present time, we are only using one per cent of the black liquor produced at the mill. If we can use our technology to convert all the black liquor to bio-DME, it would be able to power around 2,500 trucks, so we envisage incredible potential,” says Ingvar Landälv. “The black liquor capacity in Sweden alone corresponds to about 20 mills like this one.”

“We are focusing on industrialising our product together with the pulp industry both in Sweden and abroad,” says Max Jönsson, managing director of Chemrec.

A full-scale investment in bio-DME, using Chemrec’s production technology, Volvo Trucks’ automotive engineering and a fully developed filling station network, requires substantial funding.

“To realise their true potential and help to create the conditions for a climate-neutral transport system, the rules for the second generation of biofuels need to be set. We have shown that the technology works. The ball is now in the decision-makers’ court. It is up to them to create the conditions for this kind of production,” concludes Max Jönsson.

Facts about bio-DME

As a fuel in a diesel engine, bio-DME produces the same level of efficiency and lower noise levels compared with a traditional engine. Compared with diesel, bio-DME generates no less that 95 per cent fewer carbon emissions. Combustion also produces extremely low levels of particulates and nitrogen oxide. Taken as a whole, this makes bio-DME an ideal fuel for diesel engines. DME is a gas, but it is converted into liquid at a pressure of just 5 bar. Handling is uncomplicated and resembles that of liquefied petroleum gas (LPG). DME can be produced from both natural gas and different kinds of biomass. When it is made from biomass, it is called bio-DME. The production of DME from natural gas is already substantial. DME then has the same positive characteristics as a fuel in diesel engines, but its environmental impact is not as low. Facts about the bio-DME project The bio-DME project demonstrates all the aspects of the vehicle fuel bio-DME, from renewable forest raw material to use in heavy-duty trucks. The gasification unit in Piteå is being run by Chemrec in collaboration with the pulp producer, Smurfit Kappa Kraftliner, while Volvo Trucks is conducting field tests with ten DME-powered trucks, together with specially selected transport and logistics companies, in 2011-2012. Total, one of the world’s largest oil companies, is responsible for the global standardisation of DME as a vehicle fuel and the adaptation of its lubrication properties to enable it to function in engines, for example. Other companies included in the project include Haldor Topsøe, Preem, Delphi and ETC, with grants from the Swedish Energy Agency and the EU.

Facts about Chemrec’s technology

It was developed as a way of extracting additional energy and heat from black liquor in order to improve the energy produced by pulp production. Black liquor is one of the by-products of this production process and, instead of burning it, it is gasified and converted into a synthetic gas which can then be used to produce dimethyl ether, DME, for example. The plant in Piteå in northern Sweden is the first of its kind in the world and it has the capacity to produce up to four tonnes a day. This only utilises one per cent of the black liquor produced at the mill. The technology could in fact be applied to 100 per cent of it and this would produce enough bio-DME to power 2,500 trucks. The black liquor is compensated for with different kinds of biomass, which means that running the mill is still energy and cost effective. Chemrec’s black liquor technology is just one of a number of production methods and black liquor is not the only raw material that can be used to produce bio-DME.