Decarbonization Avenue University research @ CLIMAX

Low-cost ‘solar absorber’ promising for future power plants

Objective/theme

Researchers have shown how to modify commercially available silicon wafers into a structure that efficiently absorbs solar energy and withstands the high temperatures needed for “concentrated solar power” plants that might run up to 24 hours a day.

Process & benefits

The research advances global efforts to design hybrid systems that combine solar photovoltaic cells, which convert visible and ultraviolet light into electricity, thermoelectric devices that convert heat into electricity, and steam turbines to generate electricity. 

The thermoelectric devices and steam turbines would be driven by heat collected and stored using mirrors to focus sunlight onto a “selective solar absorber and reflector.”  

United States

Geography

2017-04-05

Innovation Date

Purdue University

University Name

Assistant Professor Peter Bermel

Team Members

Purdue University - Know more


Industry

  • Solar energy

Sustainability domain

  • Renewable Energy

Type of innovation

  • Core sciences & engineering

Stakeholder type

  • University researcher
  • Corporate researcher

Professions

Relevant for

  • Thermodynamics & heat sciences professional
  • Electrical engineer
  • Solar power professional
  • Production or process engineer

Innovation sector

  • Environmental sciences
  • Heat & thermodynamics
  • Renewable energy sciences