Thermal Battery Storage - Revision history

Marcin at 15:44, 20 June 2022

2022-06-20T15:44:53Z

← Older revision		Revision as of 15:44, 20 June 2022
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	*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage using water.		*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage per tote using water.
	*[[Senville Aura]] heat pump equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. See [[Hot Water Calculator]] to get 36kWhr equvalent. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.		*[[Senville Aura]] heat pump equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. See [[Hot Water Calculator]] to get 36kWhr equvalent. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.

Eric: Added some more links under the "See Also/Merge With" Section

2021-12-31T22:21:36Z

Added some more links under the "See Also/Merge With" Section

← Older revision		Revision as of 22:21, 31 December 2021
Line 1:		Line 1:
	*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage using water.		*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage using water.
	*[[Senville Aura]] heat pump equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. See [[Hot Water Calculator]] to get 36kWhr equvalent. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.		*[[Senville Aura]] heat pump equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. See [[Hot Water Calculator]] to get 36kWhr equvalent. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.

			=See Also / Merge With=
			*[[Thermal Energy Storage Device]]

	[[Category: Energy]]		[[Category: Energy]]

Eric: Added a Category to the Page

2021-12-31T22:20:37Z

Added a Category to the Page

← Older revision		Revision as of 22:20, 31 December 2021
Line 1:		Line 1:
	*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage using water.		*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage using water.
	*[[Senville Aura]] heat pump equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. See [[Hot Water Calculator]] to get 36kWhr equvalent. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.		*[[Senville Aura]] heat pump equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. See [[Hot Water Calculator]] to get 36kWhr equvalent. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.

			[[Category: Energy]]

Marcin at 22:10, 24 December 2021

2021-12-24T22:10:52Z

← Older revision		Revision as of 22:10, 24 December 2021
Line 1:		Line 1:
	*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage.		*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage using water.
	**Senville Aura equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. See [[Hot Water Calculator]]~~. 7kW~~. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.		*[[Senville Aura]] heat pump equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. See [[Hot Water Calculator]] to get 36kWhr equvalent. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.

Marcin at 22:08, 24 December 2021

2021-12-24T22:08:09Z

← Older revision		Revision as of 22:08, 24 December 2021
Line 1:		Line 1:
	*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage.		*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage.
	**Senville Aura equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.		**Senville Aura equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. See [[Hot Water Calculator]]. 7kW. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.

Marcin: Created page with "*large thermal mass collected during the day - $100/(IBC Tote.) for 30kWhr storage. **Senville Aura equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if go..."

2021-12-24T22:07:13Z

Created page with "*large thermal mass collected during the day - $100/(IBC Tote.) for 30kWhr storage. **Senville Aura equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if go..."

New page

*large thermal mass collected during the day - $100/([[IBC Tote]].) for 30kWhr storage.
**Senville Aura equivalent storage for 24kBTU (7kW) is 4 hours per 250 gal tote if going from 90 to 140F. For full night of 16 hours in winter - need 4 totes and 120kWhr. This is if resistive heating were used. We can 3x this with heat pumps - so the 120kWhr gets us to 40kW hr requirement. With a 14 kW PV array - thermal storage heating can be done even in winter.