UVM Bubble Insulated Greenhouse: Difference between revisions
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<html><iframe width="560" height="315" src="//www.youtube.com/embed/_di4eTtxbHY" frameborder="0" allowfullscreen></iframe></html> | <html><iframe width="560" height="315" src="//www.youtube.com/embed/_di4eTtxbHY" frameborder="0" allowfullscreen></iframe></html> | ||
'''An excellent report on the results of Bubble Insulation System for greenhouses from U. Vermont, USA.''' | |||
Also, a 40% reduction in heating requirement is not particularly impressive for the effort used - using about half the heat over a regular greenhouse. That is comparable to a thermal curtain - their 30% improvement over a thermal curtain seems not particularly impressive, either. The video indicates a bubble layer thickness of about 4" (minute 0:47 in video) - I would go 12" | Commentary on results: It appears that there is some tech development to be done - appears to be a finicky system. It would be good to take their learnings and opensource them fully so others can build upon them. I'd like to hear in detail - what were the issues and what is their proposed plan for addressing them. | ||
Also, a 40% reduction in heating requirement is not particularly impressive for the effort used - using about half the heat over a regular greenhouse. That is comparable to a thermal curtain - their 30% improvement over a thermal curtain seems not particularly impressive, either. The video indicates a bubble layer thickness of about 4" (minute 0:47 in video) - I would go for 12" to show impressive insulation properties - perhaps get energy savings more like 95% than 40% - meaning that you hardly have to heat at all - or could heat with as little as a small electric heater if needed. We should be looking for at least 10x improvement over a raw greenhouse. | |||
The 12" cavity would work with our sandwich of 2 6" wide modular roof panels like we used in MicroHouse 4. | The 12" cavity would work with our sandwich of 2 6" wide modular roof panels like we used in MicroHouse 4. | ||
See roof panels - https://docs.google.com/a/opensourceecology.org/presentation/d/178h3umpGReoIpy-w0B-En3vlTMTmPc5Y-KCJOsHSPI8/edit#slide=id.g3b73a8ca6_0145 | See roof panels - | ||
https://docs.google.com/a/opensourceecology.org/presentation/d/178h3umpGReoIpy-w0B-En3vlTMTmPc5Y-KCJOsHSPI8/edit#slide=id.g3b73a8ca6_0145 | |||
=Comments= | |||
Latest revision as of 18:49, 15 December 2014
https://www.youtube.com/watch?v=_di4eTtxbHY&feature=em-share_video_user
An excellent report on the results of Bubble Insulation System for greenhouses from U. Vermont, USA.
Commentary on results: It appears that there is some tech development to be done - appears to be a finicky system. It would be good to take their learnings and opensource them fully so others can build upon them. I'd like to hear in detail - what were the issues and what is their proposed plan for addressing them.
Also, a 40% reduction in heating requirement is not particularly impressive for the effort used - using about half the heat over a regular greenhouse. That is comparable to a thermal curtain - their 30% improvement over a thermal curtain seems not particularly impressive, either. The video indicates a bubble layer thickness of about 4" (minute 0:47 in video) - I would go for 12" to show impressive insulation properties - perhaps get energy savings more like 95% than 40% - meaning that you hardly have to heat at all - or could heat with as little as a small electric heater if needed. We should be looking for at least 10x improvement over a raw greenhouse.
The 12" cavity would work with our sandwich of 2 6" wide modular roof panels like we used in MicroHouse 4.
See roof panels - https://docs.google.com/a/opensourceecology.org/presentation/d/178h3umpGReoIpy-w0B-En3vlTMTmPc5Y-KCJOsHSPI8/edit#slide=id.g3b73a8ca6_0145