New research grant for optimizing OFT’s technology
Organic Fuel Technology has, together with knowledge partner Aarhus University, Department of Biological and Chemical Engineering, been awarded a grant of 3,4 million DKK by the Danish Innovation Fund (Innovationsfonden). The grant will co-fund a research project that will validate and optimize OFT’s microwave-processes. Funding is provided through the MissionBooster-program which supports small and medium-sized […]
OFT receives 6,5 mDKK grant funding from the Danish EUDP-program
Organic Fuel Technology A/S and its partners in the WaveFuels-consortium have received a 6,5 mDKK grant commitment from the Danish EUDP-program – a public innovation support program for energy technology. The grant will be used to finalize the design of OFTs first full-scale test- and demonstration plant and to validate up- and downstream values streams. […]
Organic Fuel Technology signs land-lease agreement with GreenLab
On Friday 23 June 2023, Organic Fuel Technology concluded a partnership agreement with GreenLab industry park for the location of the company’s first full-scale demonstration plant. GreenLab is a renewable and circular energy and industrial park in central Jutland, Denmark, established in 2019 to test, demonstrate and accelerate the green transition by improving the way […]
OFT microwave processing promises efficient PFAS elimination from biochar
Tests of biochar produced from OFT’s microwave cracking of PFAS-polluted wastewater sludge show no detectable remains of PFAS. This is the result of recent analyses carried out by Eurofins for Organic Fuel Technology. The analysis covered a total of 35 PFAS chemicals. At OFT we are delighted with the conclusions from the analysis. “We had […]
New study confirms great potentials of OFT-technology
A new study has validated the potentials of Organic Fuel Technology’s patented microwave technology. An independent third party, the engineering consultancy COWI, has analyzed the technology and compared it to two alternative technologies: pyrolysis and HTL. The study, which is published by the Danish Environmental Protection Agency, concludes that the application of OFT’s technology has […]
New CEO of OFT A/S – Jens Henrik Haahr
Effective 1 June 2022 Jens Henrik Haahr has taken over as new CEO of Organic Fuel Technology A/S. The appointment of follows the successful conclusion of a funding round which will enable OFT to take the next steps in demonstrating its technology in full scale and to initiate the commercial roll-out of its ground-breaking products. […]
Organic Fuel Technology wins SpirePrisen 2021
Organic Fuel Technology wins a prestigious green transition award at the yearly climate conference of the municipality of Aarhus. The winner of this year’s “SpirePris” (the “SeedPrice”) was found via a facebook-poll and an experty jury vote. Organic Fuel Technology came out on top! It was a satisfied and happy team behind the invention that went on […]
Dansk Erhverv highlights Organic Fuel Technology
Dansk Erhverv highlights the new collaboration between the company, Organic Fuel Technology, Aarhus University, Aarhus Vand and AffaldVarme Aarhus which is about testing and analyzing technology that can convert organic household waste and sewage sludge into bio-oil, gas and coal. The purpose of the project is to test whether the use of microwave reactor technology […]
NEW POLITICAL AGREEMENT SENDS MORE MONEY FOR BIO-REFINING
The Danish Parliament has agreed a new long term climate-plan for Danish agriculture. One element is increased support for bio-refining including pyrolysis. We expect that the plan will benefit OFT and follow its roll-out closely. Read the agreement
NEW STUDY: OFT TECHNOLOGY EFFICIENTLY CONVERTS SLUDGE TO BIOFUELS
A test-based study carried out in cooperation with Aarhus University has demonstrated that Organic Fuel Technology’s micro-wave cracking technology yields very good mass- and energy-balances. The technology produces so much oil, gas and char from dried, de-gassed sludge, that it has been necessary to adjust upwards the assumptions on the energy content of dried sludge […]