95% Solar House - Revision history

Marcin at 00:38, 22 July 2025

2025-07-22T00:38:51Z

← Older revision		Revision as of 00:38, 22 July 2025
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	A house designed for efficiency would require 3 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09] - where half way in the chat we arrive at around a total of 2kwhr night time energy requirement based on circulating pumps and fans suckling on energy for cooling/heating. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine to produce 5 kW power on average in a poor site [https://chatgpt.com/c/687d96a3-61d0-8010-8ece-be633a63d00f] (ie, can be achieved just about anywhere). Such a 50kW wind turbine could power night time needs for about 25 homes at 200W night usage. We need 2500 homes for a new civ, so 100x more - or we would need a single 5 MW turbine to take care of night power for the whole community.		A house designed for efficiency would require 2 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09] - where half way in the chat we arrive at around a total of 2kwhr night time energy requirement based on circulating pumps and fans suckling on energy for cooling/heating. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine to produce 5 kW power on average in a poor site [https://chatgpt.com/c/687d96a3-61d0-8010-8ece-be633a63d00f] (ie, can be achieved just about anywhere). Such a 50kW wind turbine could power night time needs for about 25 homes at 200W night usage. We need 2500 homes for a new civ, so 100x more - or we would need a single 5 MW turbine to take care of night power for the whole community.

	Do this in [[Biogas Calculations]].		Do this in [[Biogas Calculations]].

	We can optimize this further. If this assumes 16 hours of night run, it is feasible that perhaps 8 hours would suffice - if we add extra insulation or other means of thermal storage with are passive, such as pipes embedded in walls which are not circulating at night, or other heat exchange means where storage medium is static and fans blow air, or even where we do complete passivity. With tight envelope this would mean a small blower just for getting fresh air into the house.		We can optimize this further. If this assumes 16 hours of night run, it is feasible that perhaps 8 hours would suffice - if we add extra insulation or other means of thermal storage with are passive, such as pipes embedded in walls which are not circulating at night, or other heat exchange means where storage medium is static and fans blow air, or even where we do complete passivity. With tight envelope this would mean a small blower just for getting fresh air into the house.

Marcin at 00:38, 22 July 2025

2025-07-22T00:38:38Z

← Older revision		Revision as of 00:38, 22 July 2025
Line 1:		Line 1:
	A house designed for efficiency would require 3 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09]. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine to produce 5 kW power on average in a poor site [https://chatgpt.com/c/687d96a3-61d0-8010-8ece-be633a63d00f] (ie, can be achieved just about anywhere). Such a 50kW wind turbine could power night time needs for about 25 homes at 200W night usage. We need 2500 homes for a new civ, so 100x more - or we would need a single 5 MW turbine to take care of night power for the whole community.		A house designed for efficiency would require 3 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09] - where half way in the chat we arrive at around a total of 2kwhr night time energy requirement based on circulating pumps and fans suckling on energy for cooling/heating. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine to produce 5 kW power on average in a poor site [https://chatgpt.com/c/687d96a3-61d0-8010-8ece-be633a63d00f] (ie, can be achieved just about anywhere). Such a 50kW wind turbine could power night time needs for about 25 homes at 200W night usage. We need 2500 homes for a new civ, so 100x more - or we would need a single 5 MW turbine to take care of night power for the whole community.

	Do this in [[Biogas Calculations]].		Do this in [[Biogas Calculations]].

	We can optimize this further. If this assumes 16 hours of night run, it is feasible that perhaps 8 hours would suffice - if we add extra insulation or other means of thermal storage with are passive, such as pipes embedded in walls which are not circulating at night, or other heat exchange means where storage medium is static and fans blow air, or even where we do complete passivity. With tight envelope this would mean a small blower just for getting fresh air into the house.		We can optimize this further. If this assumes 16 hours of night run, it is feasible that perhaps 8 hours would suffice - if we add extra insulation or other means of thermal storage with are passive, such as pipes embedded in walls which are not circulating at night, or other heat exchange means where storage medium is static and fans blow air, or even where we do complete passivity. With tight envelope this would mean a small blower just for getting fresh air into the house.

Marcin at 02:32, 21 July 2025

2025-07-21T02:32:32Z

← Older revision		Revision as of 02:32, 21 July 2025
Line 1:		Line 1:
	A house designed for efficiency would require 3 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09]. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine to produce 5 kW power on average in a poor site (ie, can be achieved just about anywhere). Such a 50kW wind turbine could power night time needs for about 25 homes at 200W night usage. We need 2500 homes for a new civ, so 100x more - or we would need a single 5 MW turbine to take care of night power for the whole community.		A house designed for efficiency would require 3 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09]. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine to produce 5 kW power on average in a poor site [https://chatgpt.com/c/687d96a3-61d0-8010-8ece-be633a63d00f] (ie, can be achieved just about anywhere). Such a 50kW wind turbine could power night time needs for about 25 homes at 200W night usage. We need 2500 homes for a new civ, so 100x more - or we would need a single 5 MW turbine to take care of night power for the whole community.

	Do this in [[Biogas Calculations]].		Do this in [[Biogas Calculations]].

	We can optimize this further. If this assumes 16 hours of night run, it is feasible that perhaps 8 hours would suffice - if we add extra insulation or other means of thermal storage with are passive, such as pipes embedded in walls which are not circulating at night, or other heat exchange means where storage medium is static and fans blow air, or even where we do complete passivity. With tight envelope this would mean a small blower just for getting fresh air into the house.		We can optimize this further. If this assumes 16 hours of night run, it is feasible that perhaps 8 hours would suffice - if we add extra insulation or other means of thermal storage with are passive, such as pipes embedded in walls which are not circulating at night, or other heat exchange means where storage medium is static and fans blow air, or even where we do complete passivity. With tight envelope this would mean a small blower just for getting fresh air into the house.

Marcin at 02:31, 21 July 2025

2025-07-21T02:31:40Z

← Older revision		Revision as of 02:31, 21 July 2025
Line 2:		Line 2:

	Do this in [[Biogas Calculations]].		Do this in [[Biogas Calculations]].

			We can optimize this further. If this assumes 16 hours of night run, it is feasible that perhaps 8 hours would suffice - if we add extra insulation or other means of thermal storage with are passive, such as pipes embedded in walls which are not circulating at night, or other heat exchange means where storage medium is static and fans blow air, or even where we do complete passivity. With tight envelope this would mean a small blower just for getting fresh air into the house.

Marcin at 02:29, 21 July 2025

2025-07-21T02:29:01Z

← Older revision		Revision as of 02:29, 21 July 2025
Line 1:		Line 1:
	A house designed for efficiency would require 3 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09]. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine to produce 5 kW power on average.		A house designed for efficiency would require 3 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09]. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine to produce 5 kW power on average in a poor site (ie, can be achieved just about anywhere). Such a 50kW wind turbine could power night time needs for about 25 homes at 200W night usage. We need 2500 homes for a new civ, so 100x more - or we would need a single 5 MW turbine to take care of night power for the whole community.

			Do this in [[Biogas Calculations]].

Marcin: Created page with "A house designed for efficiency would require 3 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09]. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine..."

2025-07-21T02:24:46Z

Created page with "A house designed for efficiency would require 3 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09]. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine..."

New page

A house designed for efficiency would require 3 kW hr of night power at max. See discussion - [https://chatgpt.com/share/687da43d-b16c-8010-9c2a-bc82f5887d09]. This comes out to under 200W at night. This can be achieved with an amp at 240V. Thus, we can achieve largely solar operation like this, and perhaps generate the rest with biogas electric power. Wind and gravity storage could work in good locations. If each house has 12kW of PV, we can install a 50kW wind turbine to produce 5 kW power on average.