Jump to content

Practical Solar

From Wikipedia, the free encyclopedia
The printable version is no longer supported and may have rendering errors. Please update your browser bookmarks and please use the default browser print function instead.
Practical Solar
IndustrySolar power
Founded2004
FounderBruce Rohr
Headquarters,
Key people
Bruce Rohr, CEO and president
Productsheliostats
Websitepracticalsolar.com

Practical Solar, Inc. is an American manufacturer of heliostats used for concentrating solar power, as well as for residential and commercial natural lighting (daylighting) applications.[1] The company, located in Boston, Massachusetts, introduced its heliostat system for sale in February 2009.[2] According to the detailed agenda for the 5th Annual Conference on Clean Energy in Boston, Practical Solar’s chief operating officer David Howell[3] made a presentation seeking funding for the company at the “Investor Pitch Session” on November 12, 2009.[4]

Heliostats

Practical Solar’s heliostats are small in the spectrum of heliostats commercially available for harnessing solar thermal energy.[5] They each have 8 square feet (0.74 meters) of reflector area.[6] To put this in perspective, the heliostats in a solar power tower project in Seville, Spain each have reflectors nearly 1,300 square feet (120 m2) in size (120 square meters).[7] Practical Solar’s heliostat system is the first computer-controlled heliostat system that can be installed by hand, using only hand tools.[8]

Practical Solar’s founder Bruce Rohr suggested in Northeast Sun magazine that small heliostats are “more reliable and more cost-effective per square meter of reflective area” than the larger heliostats typically used in solar power tower projects.[9] Although a larger number of small heliostats would be needed for a solar power tower project, Mr. Rohr suggested that the total installation area would be about the same, and that the installed price per watt delivered would be lower with small heliostats than large heliostats.[10]

Practical Solar’s web site states that residential customers also use their heliostats for direct space heating, drying mold, melting ice dams on roofs, and melting snow.[11]

References

  1. ^ Solar Industry magazine, by SI Staff on Monday 09 February 2009.
  2. ^ Solar Industry, by SI Staff on Monday 09 February 2009.
  3. ^ "About Practical Solar". Practical Solar "About" page
  4. ^ "Detailed Agenda". Conference on Clean Energy (Boston, MA) 12–13 November 2009. PDF of Detailed Agenda
  5. ^ "The Science behind Heliostats and Concentrated Solar Power (CSP) Heliostats". HELIOSCSP (in Spanish). Retrieved 2023-06-25.
  6. ^ "Heliostat Specifications" on Practical Solar product page
  7. ^ Shukman, David. "Power station harnesses Sun's rays". BBC News. 2 May 2007 BBC News article
  8. ^ Solar Today, March 2009, page 46 PDF edition published by the American Solar Energy Society
  9. ^ Rohr, B. “The Promise of Small Heliostats”. Northeast Sun. Spring 2009. pp.7-12 PDF of article Archived 2010-12-26 at the Wayback Machine
  10. ^ Rohr, B. “The Promise of Small Heliostats”. Northeast Sun. Spring 2009. PDF of Northeast Sun article Archived 2010-12-26 at the Wayback Machine
  11. ^ “Creative Applications”. Practical Solar "Applications" page Archived 2009-06-15 at the Wayback Machine