IBC Tote: Difference between revisions
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*{{check}}140F [https://www.usplastic.com/knowledgebase/article.aspx?contentkey=798] | *{{check}}140F [https://www.usplastic.com/knowledgebase/article.aspx?contentkey=798] | ||
*Dimensions see [http://www.tara-group.com.ua/en/ibc-cubes.html] | *Dimensions see [http://www.tara-group.com.ua/en/ibc-cubes.html] | ||
*Permeation of hydrogen through HDPE - [https://digital.library.unt.edu/ark:/67531/metadc902701/m2/1/high_res_d/927901.pdf] | |||
=Energy Storage= | =Energy Storage= | ||
Revision as of 19:09, 7 August 2022
About
Can be stacked 2 high when full - 330 Gallon Tote
Specifications
- 160F max temp. [1]
- 140 max temp hearsay - [2]
- Max fill temperature - [3] - is that continuous or only for filling?
140F [4]- Dimensions see [5]
- Permeation of hydrogen through HDPE - [6]
Energy Storage
- From 80F to 140F, we have 60F, so using Water Heating Calculator - we get 37 kWhr stored per tote. 24000 BTU is 7 kW.
- Thus, we store 5 hours of a heat pump's thermal output in a single IBC tote! This is very much practical for thermal storage in winter.
- We would need 5 totes to store heat for one day, 10 totes for 2 days' worth. This appears to be a practical option.
- However, standard heat pumps output 92F heat. Thus, a different working fluid would need to be used to achieve a higher temperature. This would be a good point of innovation for off-grid storage
- The immeidiate solution is to use PV to heat via resistive heating. We would need a minimum of 16 hours heat per day, or 112 kWhr. Assuming only 6 hours of light in the winter, this would need a 19kW PV panel system. Not good. Or, a wind turbine.