Heating: Difference between revisions
(Created page with "This page is about heating homes and other buildings. ==Status quo== Globally, most heating is done using '''fossil fuels:''' {{talk|TODO: Add a stat about what percent of fossil fuels are used for heating indoor air (or maybe instead, what percent of the world's carbon emissions are from heating indoor air). Also show how it compares to cooling and other electricity use.}} * Burning natural gas or petroleum oil * Electric heaters, and most of the world's ele...") |
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This page is about heating [[homes]] and other buildings. | This page is about heating [[homes]] and other buildings. | ||
==Status quo== | ==Status quo== | ||
* Most heating is done using '''fossil fuels:''' {{talk|TODO: Add a stat about what percent of fossil fuels are used for heating indoor air (or maybe instead, what percent of the world's carbon emissions are from heating indoor air). Also show how it compares to [[cooling]] and other electricity use.}} | |||
* Burning [[natural gas]] or petroleum oil | ** Burning [[natural gas]] or petroleum oil | ||
* Electric heaters, and most of the world's electricity comes from [[coal]] or [[natural gas|gas]] power plants. | ** Electric heaters, and most of the world's electricity comes from [[coal]] or [[natural gas|gas]] power plants. | ||
* Heating uses '''far more energy''' than lights, computers, and other electricity usage at home, typically. | |||
==How to get fresh air in the winter without losing too much heat== | |||
* Instead of opening the window just a crack, open all the windows (and doors if possible) for a short amount of time. Flush out the air, and then close everything fully. {{talk|TO DO: maybe add a note explaining ''why'' this is more efficient}} | |||
;Longer term solutions | |||
* Install a ventilation system that has a {{p2|heat exchanger|A heat exchanger is a special component that pre-warms the fresh winter air, using the old indoor air. It can save a lot of energy.{{qn}} }}? Could be very expensive tho. And what if the environmental footprint of all the renovations is higher than the heat it saves? | |||
** Maybe we could invent something easier & cheaper? See '''[[Talk: Portable heat exchanger]]''' | |||
==Discussions== | ==Discussions== | ||
* [[Insulate existing buildings]] | * [[Insulate existing buildings]] - sustainability questions | ||
==Heating types - comparison== | |||
== | |||
For electricity generated by fossil fuels, | For electricity generated by fossil fuels, | ||
electric heating tends to have a worse carbon footprint than burning fossil fuels directly. | electric heating tends to have a worse carbon footprint than burning fossil fuels directly (such as natural gas furnaces). | ||
This is because of the losses in | This is because of the losses in | ||
<!--generating & transmitting the electricity--> | <!--generating & transmitting the electricity--> | ||
power plants and power lines. | power plants and power lines. | ||
{{talk| | {{talk|TO DO: Also mention some renewables scenarios where, for example, there's [[hydropower]] but at a limited capacity: Whenever you use more electricity, less hydropower can be exported elsewhere, and so more fossil fuels must be used for someone else's electricity. {{x|Note: There are other cases where this isn't true - especially with wind and solar without enough energy storage.}} If all of this sounds too complicated, it doesn't have to be. Saving energy is just generally a good thing, basically.}} | ||
Heat pumps can mitigate some of that inefficiency, but maybe not well enough. Natural gas furnaces might still be the better option, unless the local power grid is mostly [[decarbonize the energy supply|renewables or nuclear]]. | |||
{{talk|TO DO: fill in a table of relative carbon emissions by type, typical cases}} | |||
<!-- DRAFT: | |||
{|class="wikitable" | {|class="wikitable" | ||
!Typical case | !Typical case | ||
| Line 38: | Line 51: | ||
|} | |} | ||
{{pn|'''Research needed:''' Let's do some estimates and help fill in this table. Join the '''{{tp2}}'''.}} | {{pn|'''Research needed:''' Let's do some estimates and help fill in this table. Join the '''{{tp2}}'''.}} | ||
--> | |||
<!-- TALK: | |||
should we mention somewhere?: | |||
* [[Air source heat pump]] | |||
* [[Ground source heat pump]] | |||
--> | |||
==See also== | ==See also== | ||
* [[Cooling]] | |||
* [[Water heating]] | |||
* [[Wasted electricity is the same as electric heating]] | * [[Wasted electricity is the same as electric heating]] | ||
Revision as of 20:35, 30 November 2025
This page is about heating homes and other buildings.
Status quo
- Most heating is done using fossil fuels: discussion TODO: Add a stat about what percent of fossil fuels are used for heating indoor air (or maybe instead, what percent of the world's carbon emissions are from heating indoor air). Also show how it compares to cooling and other electricity use.
- Burning natural gas or petroleum oil
- Electric heaters, and most of the world's electricity comes from coal or gas power plants.
- Heating uses far more energy than lights, computers, and other electricity usage at home, typically.
How to get fresh air in the winter without losing too much heat
- Instead of opening the window just a crack, open all the windows (and doors if possible) for a short amount of time. Flush out the air, and then close everything fully. discussion TO DO: maybe add a note explaining why this is more efficient
- Longer term solutions
- Install a ventilation system that has a heat exchangerA heat exchanger is a special component that pre-warms the fresh winter air, using the old indoor air. It can save a lot of energy.[QUANTIFICATION needed] ? Could be very expensive tho. And what if the environmental footprint of all the renovations is higher than the heat it saves?
- Maybe we could invent something easier & cheaper? See Talk: Portable heat exchanger
Discussions
- Insulate existing buildings - sustainability questions
Heating types - comparison
For electricity generated by fossil fuels,
electric heating tends to have a worse carbon footprint than burning fossil fuels directly (such as natural gas furnaces).
This is because of the losses in
power plants and power lines.
discussion TO DO: Also mention some renewables scenarios where, for example, there's hydropower but at a limited capacity: Whenever you use more electricity, less hydropower can be exported elsewhere, and so more fossil fuels must be used for someone else's electricity.
Heat pumps can mitigate some of that inefficiency, but maybe not well enough. Natural gas furnaces might still be the better option, unless the local power grid is mostly renewables or nuclear. discussion TO DO: fill in a table of relative carbon emissions by type, typical cases