CSIRO Energy Technology

We are playing an essential role in researching and developing technologies to achieve the objective of near zero emissions from the use of energy worldwide.

CSIRO has developed numerous processes and technologies that assist industrial and commercial sectors to reduce waste and emissions.

The Kyoto Protocol should be considered just the first lap in a long race to reduce the environmental and economic risks associated with climate change, according to a climate risk analyst with CSIRO’s Energy Transformed Flagship, Dr Roger Jones.

The odometer of a low emission hybrid electric test vehicle today reached 100,000 miles as the car circled a track in the UK using the power of an advanced CSIRO battery system.

This conference will cover a wide range of technical issues - from how hydrogen is safely produced, stored, transported and utilised to broader topics such as environment, education and regulatory developments.

Experience gained extracting fossil fuels can be reversed and applied to sequestering carbon dioxide greenhouses gas in underground reservoirs.

The Energy Transformed Flagship's research will accelerate the development and uptake of low emission distributed energy systems in Australia’s energy industry.

The combination of modelling expertise, experimentally-based data and CSIRO software is helping to address ventilation and thermal issues in built environments. The technology is producing gains in energy efficiency and the health of indoor environment.

CSIRO has scientific capabilities and skills critical for progress towards the hydrogen economy, which may offer a path to a sustainable energy future for Australia.

This video shows how a new computer modelling system, NEMsim, developed by CSIRO is helping bidders, investors and market regulators in the electricity market to make the right decisions. (1:00)

The National Solar Energy Centre (NSEC) comprises a high concentration tower solar array that can generate 500 kW of energy, and a low concentration linear array for solar thermal energy as shown in this video. (5:00)

CSIRO’s site at Clayton, Victoria is adjacent to Monash University and the Australian Synchrotron. More than 800 staff members work in energy, resources, forestry, manufacturing, chemicals, health, information, agribusiness and more.

CSIRO Lucas Heights provides facilities for 80 staff for research in energy, environment and minerals.

Read how CSIRO is addressing the important issues facing this industry, particularly with our programs in environmental sustainability. (6 pages)

A presentation delivered by Dr Louis Wibberley at the COAL21 Conference in September 2007 that discusses low emission energy generation primarily from coal. (49 pages)

Post combustion capture (PCC), a process that captures CO₂ from power station flue gases, is a key technology with the potential to substantially reduce the greenhouse gas intensity of existing and future coal power stations.

A fact sheet on the occurrence of zinc in Australian and other coals, the behaviour of zinc during combustion and the environmental effects of zinc released as a consequence of coal use.