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Environmental Engineering

Environmentally responsible engineering is efficient engineering. Doing more with less. Creating machines that are made of fewer materials and consume less energy, but perform better and last longer. A mix of technological leaps and many small steps. Revolution and evolution in order to improve.

DC26
The Dyson DC26 vacuum weighs just 5.2 kg. All 275 components were engineered with size, weight, functionality and robustness in mind - saving on raw materials but not compromising on performance.
DC24
The average motor in vacuum cleaners is 1700 watts. DC24 uses only 650 watts. So it uses less than half the electricity, yet is equal to the performance of a full-size upright.
Dyson Airblade™ hand dryer
Unlike conventional dryers, the Dyson Airblade™ hand dryer does not use an energy intensive heating element, making it 80 per cent more energy efficient.
DC31
Dyson's latest handheld is powered by Dyson's new energy efficient digital motor which means it delivers more suction power for less enrgy than it's predecessor.

News - November 2009

Dyson has been awarded the Carbon Trust Standard in recognition of its reduced carbon emissions. Since 2006, Dyson UK has reduced its carbon emissions by over 15 per cent through energy saving initiatives in its Research Design and Development centre and UK headquarters. Dyson was recognised for its efficient lighting, heating and cooling, and for its energy efficient products, such as Dyson Airblade™.

Find out more about the Carbon Trust Standard here www.carbontruststandard.com

To download our environment policy click here

Our story so far

1975
Frustrated with bagged cleaners that clog, James Dyson starts to develop the Dyson Dual Cyclone, the only vacuum cleaner that doesn't lose suction. It has no bag to throw away.
1987
Conscious of the carcinogenic and carbonaceous soot emitted by diesel exhausts, James Dyson sets about developing a cyclonic filtration system to be fitted on cars and vans. He is turned down by the UK's Department of Trade and Industry for development grants.
1997
Five years after the first Dyson vacuums goes on sale, James thinks about what would happen to the machines when they reach the end of their natural lives. His engineers come up with the Recyclone - the first vacuum cleaner to be made from recycled plastic and recovered parts.
2001
Dyson engineers and scientists start developing an energy efficient motor.
2004
The first Dyson digital motor is launched in DC12, a compact vacuum designed for Japan. The switched reluctance motor is faster, smaller and lighter than a conventional A/C equivalent.
2007
The Dyson Airblade™ hand dryer is launched. The Dyson Airblade™ hand dryer works in just 12 seconds. It uses sheets of purified air traveling at over 640km/h to scrape water from your hands like a windshield wiper. It's efficient too, using up to 80% less energy than a warm air hand dryer.
2008
The Dyson DC24 vacuum proves that you don't need big motors for good pick up performance. This machine uses 650 watts of power-saving energy.

Sustainability becomes a key criteria in the James Dyson Award for student design.
2009
Dyson's latest digital motor sees its first application in the Dyson DC31 handheld cleaner. Because of it, DC31 is 10 per cent smaller and 30 per cent lighter than DC16.
2009 DDM V2
Dyson's latest energy efficient digital motor.

The machine made from recycled Dyson machines.

Dyson's latest energy efficient digital motor.

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