Welcome to the Oel-Waerme-Institut

OWI provides research services investigating and developing concepts and new technologies for heat and power generation on a basis of fossil and renewable fuels. It aims at developing energy-efficient and environmentally friendly products which are marketable. At the same time, OWI cooperates closely with industrial partners and research institutes and sees itself as an mediator between fundamental and applied research. OWI is a non-profit organisation and an acknowledged institute affiliated to RWTH Aachen University.



News

Operating industrial furnaces with biogenic fuels –
GWI and OWI develop “biological burner”

27th August 2015 – Within a joint research project, the Gas und Wärme-Institut Essen e. V. (GWI) and the Oel-Waerme-Institut (OWI) want to develop a combined biofuel burner for the production of industrial process heat. The burner shall not only burn low calorific gas but also fluid biogenic fuels, such as vegetable oil, in an effective and safe way while producing low emissions. Development tasks include a (partly) premixing evaporation concept for conventional and biogenic liquid fuels. … More

Fuel cells in diesel operation –
System successfully tested

13th May 2015 – The research partners inhouse engineering, Enasys, MAHLE Behr GmbH & Co. KG and the Oel-Waerme-Institute (OWI) achieved an important milestone in the project completion for the development of a modular, diesel driven fuel cell system: The system’s functionality has been successfully demonstrated in the isolated operation of the fuel cell stack and of the electronics module. The fuel cell system consists of a diesel and water tank, a fuel gas generator module and a fuel cell module including a low-temperature-PEM-fuel cell (LT-PEM) with 90 cells, as well as a battery and power electronics. … More

Diffusion coatings in furnace manufacturing –
Reducing costs, increasing lifetime

23rd March 2015 – Metallic components in oil burners and industrial furnaces, which come into contact with flames and hot exhaust gases, are exposed to high stresses due to heat and aggressive furnace atmospheres. Cost-effective, heat-resistant steels usually provide sufficient oxidation resistance and high-temperature strength up to a temperature of 900°C. Increasing requirements concerning the profitability of high-temperature processes in terms of lower energy costs and shorter process times often lead to higher process temperatures. For this reason, components of high-temperature processes often need to be produced out of highly temperature resistant, but also two to five times more expensive nickel alloys. … More

Micro-emulsions in middle distillate –
Study on the development of preventive measures

12th March 2015 – Biocomponents such as Fatty Acid Methyl Ester (FAME) or hydrogenated vegetable oils (HVO), are added to middle distillates like diesel and heating oil in Germany in order to increase the range of fossil fuels and to reduce greenhouse-gas emissions. Biocomponents contribute to the aging process of fuels, especially at long storage times. This can, among other things, lead to water-in-fuel-emulsions. Furthermore, by adding bio components, alkali- and alkaline earth metals, as well as phosphorus, get into the fuels.  … More

 


Service und Infopool

Companies

For companies that are interested in a quick overview of the research and development at OWI and want to know what OWI can do for them, this is the right place … more


Students

OWI offers a wide range of training opportunities for students and career opportunities for junior scientists. We are always looking for student assistants; we provide options and topics for writing academic papers and for a PhD on the basis of a scholarship … more


Jobs and Career

OWI is always looking for young talents and experienced employees for the scientific and commercial sector and offers various possibilities for starting a career and different career prospects as well as individual and personal training opportunities … more