Difference between revisions of "Drake Landing"

From ScienceForSustainability
Jump to navigation Jump to search
(Created page with "Category:EXPORT Category:Energy Category:Storage Category:Solar Thermal [https://www.dlsc.ca/ Drake Landing Solar Community] website * [https://www.dlsc.ca/ho...")
 
 
(4 intermediate revisions by the same user not shown)
Line 1: Line 1:
[[Category:EXPORT]]
+
[[Category:1]]
[[Category:Energy]]
+
[[Category:Renewable energy]]
[[Category:Storage]]
+
[[Category:Energy storage]]
[[Category:Solar Thermal]]
+
[[Category:Solar thermal]]
 +
[[Category:Buildings]]
  
 
[https://www.dlsc.ca/ Drake Landing Solar Community] website
 
[https://www.dlsc.ca/ Drake Landing Solar Community] website
Line 9: Line 10:
 
* [https://www.dlsc.ca/solar_collect.htm Solar Collectors] - the panels
 
* [https://www.dlsc.ca/solar_collect.htm Solar Collectors] - the panels
 
* [https://www.dlsc.ca/district.htm The District Heating System] - pipework, operating temperatures, warm air heating units in houses
 
* [https://www.dlsc.ca/district.htm The District Heating System] - pipework, operating temperatures, warm air heating units in houses
* https://www.dlsc.ca/energy.htm The Energy Centre] - houses two short-term heat storage tanks and most of the mechanical equipment such as pumps, heat exchangers, and controls
+
* [https://www.dlsc.ca/energy.htm The Energy Centre] - houses two short-term heat storage tanks and most of the mechanical equipment such as pumps, heat exchangers, and controls
 
* [https://www.dlsc.ca/borehole.htm Borehole Thermal Energy Storage] - underground structure for storing large quantities of solar heat collected in summer for use later in winter
 
* [https://www.dlsc.ca/borehole.htm Borehole Thermal Energy Storage] - underground structure for storing large quantities of solar heat collected in summer for use later in winter
 
* [http://dlsc.ca/data/DLSC48.swf Current Conditions] - animated graphic showing temperatures at various parts of systems and status of circulators
 
* [http://dlsc.ca/data/DLSC48.swf Current Conditions] - animated graphic showing temperatures at various parts of systems and status of circulators
  
 
[http://www.hme.ca/presentations/Drake_Landing_Solar_Community--AAPT.pdf Borehole Field In The Drake Landing Solar Community, Okotoks, Alberta] American Association of Physics Teachers; 21 Jul 2008
 
[http://www.hme.ca/presentations/Drake_Landing_Solar_Community--AAPT.pdf Borehole Field In The Drake Landing Solar Community, Okotoks, Alberta] American Association of Physics Teachers; 21 Jul 2008
 +
 +
[http://www.geo-exchange.ca/en/UserAttachments/flex1304_5-%20SAIC-%20Bill%20Wong%202013%20-%20Integrating%20Solar%20and%20Heat%20Pumps.pdf Renewable Heat Workshop – Integrating Solar & Heat Pumps] Bill Wong (SAIC), Jeff Thornton (T.E.S.S.); SAIC; 31 Jan 2013
 +
: Has some seasonal data for firsat 5 years' operation
 +
 +
[http://www.hpbmagazine.org/attachments/article/12213/15Su-Drake-Landing-Solar-Community-Alberta-Canada.pdf Groundbreaking Solar]  BRUCE SIBBITT, DOUG MCCLENAHAN, REDA DJEBBAR, ASHRAE, KEITH PAGET; High Performance Buildings; Summer 2015
 +
: Drake Landing provides a real-world example of how conventional heating fuel consumption for space heating can be nearly eliminated, reducing greenhouse gas emissions by more than 5.5 tons per house annually. This is made possible in the harsh 9,027 heating degree day climate by using solar heat collectors with seasonal heat storage, energy-efficient house design and construction, and a low temperature district heating network to distribute the heat to the homes.
 +
 +
: ''Technical and building info''

Latest revision as of 12:51, 23 May 2020


Drake Landing Solar Community website

Borehole Field In The Drake Landing Solar Community, Okotoks, Alberta American Association of Physics Teachers; 21 Jul 2008

Renewable Heat Workshop – Integrating Solar & Heat Pumps Bill Wong (SAIC), Jeff Thornton (T.E.S.S.); SAIC; 31 Jan 2013

Has some seasonal data for firsat 5 years' operation

Groundbreaking Solar BRUCE SIBBITT, DOUG MCCLENAHAN, REDA DJEBBAR, ASHRAE, KEITH PAGET; High Performance Buildings; Summer 2015

Drake Landing provides a real-world example of how conventional heating fuel consumption for space heating can be nearly eliminated, reducing greenhouse gas emissions by more than 5.5 tons per house annually. This is made possible in the harsh 9,027 heating degree day climate by using solar heat collectors with seasonal heat storage, energy-efficient house design and construction, and a low temperature district heating network to distribute the heat to the homes.
Technical and building info