Dyson technology for education
Engineered to improve learning environments. From light levels to hygiene and air quality, every detail can affect students' wellbeing, ability to concentrate and overall study experience.
Hygienic hand drying with low environment impact.
Dyson Airblade™ hand dryers can improve cleanliness and hand hygiene. And have low energy consumption and running costs.
Efficient lighting for learning and studying spaces
The right light levels can aid task performance.¹ Efficient illumination and long-lasting brightness enable optimal lighting conditions with reduced running costs.
Cleaner air for your students
Indoor air pollution can be up to 5X worse than outdoors.² Air multiplier™ technology that purifies the air can enhance comfort and enable students to create their preferred learning conditions.
Wash+Dry short hand dryer. Wash your hands at the sink with Airblade™ technology.
• Dry time: 14 seconds
• Noise level: 81dB
• Rated power: 1,000W
• Dimensions: H 159 x L 286 x W 303 mm
£1,249.99 excluding VAT
Dyson Airblade Wash+Dry short
Dyson Lightcycle™ desk light. Intelligently tracks local daylight. With light quality that lasts 60 years.³
• Heat Pipe technology maintains LED brightness for 60 years³
• Helps improve visual performance⁴
• 3 Axis Glide™ motion puts light precisely where you need it
• Bubble Optic lens displays colour very close to daylight
• Dimensions: H 703 x L 190 x W 527 mm
£374.99 excluding VAT
Automatically purifies, heats and cools you
• Whole-room purifying fan heater
• Heats in winter, cools you in summer. Purifies all year round.
• Senses and displays real-time air quality
• Captures allergens, pollutants and gases⁵
• Dimensions: H 764 x L 248 x W 248 mm
£457.50 excluding VAT
- 1 As per the Illuminating Engineering Society's (IES) The Lighting Handbook, Tenth Edition: Reference and Application, Publisher: Illuminating Engineering Society; 10 edition (July 30, 2011).
- 2 Hulin et al, Respiratory health and indoor air pollutants based on quantitative exposure assessments, European Respiratory Journal, Oct. 2012.
- 3 LED-life calculation is based on L70 measurement according to IEC 62717, with an estimation of 8 hours' usage per day. Real-life results may vary.
- 4 As per the Illuminating Engineering Society's (IES) The Lighting Handbook, Tenth Edition: Reference and Application, Publisher: Illuminating Engineering Society; 10 edition (July 30, 2011).
- 5 Particles as small as 0.1 microns. Tested to EN1822. Gaseous capture rates vary.