A selection of IFE's research projects
Silicon product control for better Li-ion batteries (Siproco Fobeliba)
In this project we investigate how we can make better rechargeable batteries. IFE's battery research focuses on developing silicon as a material for storing the lithium in Li-ion batteries.
SIP - New Functional Tracers Based on Nanotechnology
The main aim of this project is to develop new tracer materials that can be used for flow monitoring in oil reservoirs, oil wells and process studies. The project addresses the need for automatic and unmanned monitoring in relation to the e-field concept.
SIP-Characterisation and Modelling of Oil-Water Mixtures in Multiphase Flow
A strategic institute program on behaviour of oil water mixtures in multiphase flow
Exploring solar on-farm energy production combined with a fleet of electrical vehicles and precision agriculture for reduced GHG-emissions.
The software package STEELTEMP® has been developed and used by the steel industry for more than three decades. Its main focus is on temperature and heat transfer analysis in steel plants. The program is general and unified and can be used for analyses of many different steel processes.
Strategic Institute Program - New Advanced Materials for Hydrogen Storage
The prospects of a future non polluting "Hydrogen Society" is currently the focus of considerable R&D. IFE has long traditions in studies of hydrogen in solid materials.
Subsurface storage of CO2 - Injection well management during the operational phase (2009-2015)
The research described in th is project will help to optimise the injection process of CO2 both in subsurface operations on the Norwegian Continental Shelf and internationally.
Sustainable production of hydrogen from waste (2008-2013)
The main objective of the project is to demonstrate a hydrogen production path based on biogas produced from wastes. The produced hydrogen gas will have a fuel quality of at least 99.99 vol% to supply a future hydrogen station in the city of Drammen in an early phase with few hydrogen vehicles.
The Thermal Performance Monitoring and Optimisation system TEMPO is designed to support plant personnel in identification and correction of problems which can cause decreases in plant efficiency.
The Concrete Project
Several countries are planning to extend the operating life of their nuclear power plants from 40 to 60 years. It is therefore of great interest to learn about the changes in the concrete that can be expected when the life of the facilities is extended. The project involves irradiating samples of concrete and then examining the changes that have taken place.
The Geilo Schools
The Physics department at IFE has been the organizer of biannual Geilo Schools at Bardøla Høyfjellshotell, Geilo, Norway since 1971.
The INDOFERN Project (New indicator organisms for environmental radioactivity)
The INDOFERN (New indicator organisms for environmental radioactivity) project is one of several projects sponsored by the NKS (Nordic Nuclear Safety Research) that IFE has participated in. The objective of the project was to identify new indicator organisms and biomarkers for assessment of environmental radioactivity in various Nordic ecosystems (terrestrial, fresh water, marine) for normal and emergency situations.
The Norwegian Fucus Project
The main sources of radioactive pollution in Norwegian and Arctic waters the last 30 years are global fallout from nuclear weapons testing in the atmosphere, routine discharges from the reprocessing facilities at Sellafield (UK) and Cap de la Hague (France), and the Chernobyl accident. The most important radionuclides are 137Cs, 99Tc, 90Sr and the plutonium isotopes 238Pu, 239Pu and 240Pu. In addition, seawater contains naturally occurring radionuclides as 40K, 210Po and other nuclides in the uranium and thorium series.
The Norwegian Research Centre for Solar Cell Technology
The Petro-HRA Project
A new method for assessment of human reliability in post-initiating events in the petroleum industry.
Thermoelectric materials: Nanostructuring for improving the energy efficiency of thermoelectric generators and heat-pumps (Norwegian Resource Council project no. 228854).
Thin and highly efficient silicon-based solar cells incorporating nanostructures
This large research project aims at using the intriguing possibilities offered by nanotechnology and nanostructured materials to dramatically enhance the cost-efficiency of silicon-based solar cells. Within this project, new materials and technologies for making solar cells from very thin crystalline silicon substrates are being targeted.
Total scattering techniques for investigations of disorder in the solid state
"Total scattering" techniques , which reveal information about atomic and short-range atomic correlations by considering the diffuse scattering in addition to the Bragg scattering, have proven to be very powerful for investigations of the structur of disordered materials. These techniques are about to reach maturity but are hardly exploited by Norwegian research communities.
TracIntel is a multiclient JIP with the purpose to develop tracer technology to meet challenges connected to new production methods and environmental issues. The program is divided into several minor projects.
Virtual environments for maintenance and outage training
IFE is working on using virtual reality to provide nuclear power plant workers a better understanding of their work tasks, and get familiar with equipment and work area