Solar Thermal Energy Storage: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
(Added some more links under the "See Also" section.) |
||
| (5 intermediate revisions by 2 users not shown) | |||
| Line 3: | Line 3: | ||
*Despite this it (along with Photovoltaic Solar) only works when the sun shines (ie not at night, and not during storms/sufficiently cloudy days) | *Despite this it (along with Photovoltaic Solar) only works when the sun shines (ie not at night, and not during storms/sufficiently cloudy days) | ||
*Thus storage is neccisary for more stable power | *Thus storage is neccisary for more stable power | ||
=Research= | =Research= | ||
==Methods== | ==Methods== | ||
*Saturated Water | *Saturated Water | ||
*Molten Salt (or equivalent other substances) | *Molten Salt (or equivalent other substances) | ||
*Heated Solid (Such as a metal cube with an insulating shroud) | *Heated Solid (Such as a metal cube with an insulating shroud, or heated concrete with a shroud) | ||
*Heated liquid (Such as Oil) | |||
*Phase Change Materials | |||
*Pressurized Air | *Pressurized Air | ||
*Pressurized/Elevated Water | *Pressurized/Elevated Water | ||
*Flywheel | *Flywheel | ||
*Conversion to Electricity, and Electric Storage | *Conversion to Electricity, and Electric Storage | ||
=Industry Standards= | =Industry Standards= | ||
* | * | ||
=Existing Open Source Designs= | =Existing Open Source Designs= | ||
* | * | ||
=Minimum Viable | =Minimum Viable Product= | ||
*Capable of storing x Joules of Energy | |||
* Capable of storing x Joules of Energy | |||
=Basic Design= | =Basic Design= | ||
==Heat Generator== | |||
==Heat | * Either a [[Linear Solar Concentrator]], a [[Parabolic Solar Concentrator]], or an array of [[Open Source Heliostat]]s | ||
* Either a [[Linear Solar Concentrator]], a [[Parabolic Solar | |||
==Heat Delivery== | ==Heat Delivery== | ||
* Either by piping of the working fluid, or a heatpipe | * Either by piping of the working fluid, or a heatpipe | ||
==Heat Storage== | ==Heat Storage== | ||
*Molten salt | |||
*Concrete, high temperature with pipes through it | |||
*Ruths storage system - or Steam accumulator - or saturated water | |||
=BOM= | =BOM= | ||
* | * | ||
=See Also= | =See Also= | ||
*[[Thermal Energy Storage Device]] | |||
* | *[[Solar Thermal Storage]] | ||
=Useful Links= | =Useful Links= | ||
*Basic concept of steam accumulators - see p2. - [http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.525.3795&rep=rep1&type=pdf] | *Basic concept of steam accumulators - see p2. - [http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.525.3795&rep=rep1&type=pdf] | ||
*Dismisses steam accumulator as not having enough power for turbines. That's correct, but it would have sufficient power for smaller modern steam engines. [http://www.dlr.de/Portaldata/41/Resources/dokumente/institut/thermischept/Solar_Thermal_Energy_Storage_Technologies_Hannover2008.pdf]. Proposes molten salt and concrete blocks as more likely. | *Dismisses steam accumulator as not having enough power for turbines. That's correct, but it would have sufficient power for smaller modern steam engines. [http://www.dlr.de/Portaldata/41/Resources/dokumente/institut/thermischept/Solar_Thermal_Energy_Storage_Technologies_Hannover2008.pdf]. Proposes molten salt and concrete blocks as more likely. | ||
*Saturated water storage - or Ruths storage system - [https://books.google.com/books?id=qBknDwAAQBAJ&pg=PA552&lpg=PA552&dq=storing+solar+energy+in+saturated+water&source=bl&ots=1A57Beq98w&sig=iitvSNBsIXNp-G9vIZltdcVZyO0&hl=en&sa=X&ved=0ahUKEwiSnOCE2YrZAhUG54MKHbvLDg4Q6AEIRzAF#v=onepage&q=storing%20solar%20energy%20in%20saturated%20water&f=false] | |||
* | *[https://www.dlr.de/tt/Portaldata/41/Resources/dokumente/institut/thermischept/Solar_Thermal_Energy_Storage_Technologies_Hannover2008.pdf PDF from 2008 (Useful Info, but needs to be checked that it is still current)] | ||
Latest revision as of 16:18, 5 July 2018
Basics
- Solar thermal is a great renewable form of energy
- Despite this it (along with Photovoltaic Solar) only works when the sun shines (ie not at night, and not during storms/sufficiently cloudy days)
- Thus storage is neccisary for more stable power
Research
Methods
- Saturated Water
- Molten Salt (or equivalent other substances)
- Heated Solid (Such as a metal cube with an insulating shroud, or heated concrete with a shroud)
- Heated liquid (Such as Oil)
- Phase Change Materials
- Pressurized Air
- Pressurized/Elevated Water
- Flywheel
- Conversion to Electricity, and Electric Storage
Industry Standards
Existing Open Source Designs
Minimum Viable Product
- Capable of storing x Joules of Energy
Basic Design
Heat Generator
- Either a Linear Solar Concentrator, a Parabolic Solar Concentrator, or an array of Open Source Heliostats
Heat Delivery
- Either by piping of the working fluid, or a heatpipe
Heat Storage
- Molten salt
- Concrete, high temperature with pipes through it
- Ruths storage system - or Steam accumulator - or saturated water
BOM
See Also
Useful Links
- Basic concept of steam accumulators - see p2. - [1]
- Dismisses steam accumulator as not having enough power for turbines. That's correct, but it would have sufficient power for smaller modern steam engines. [2]. Proposes molten salt and concrete blocks as more likely.
- Saturated water storage - or Ruths storage system - [3]
- PDF from 2008 (Useful Info, but needs to be checked that it is still current)