Charcoal/Steam Powerplant In Shipping Containers: Difference between revisions
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[[File:BioenergySteamCharcoal.jpg|thumb|596px| A [[Kon-Tiki Kiln]] (lower right) creates charcoal that can be dumped out to the right as biochar, or onto a hopper (left) where a conveyor belt moves it to a [[Troy Martz Gasifier]] that powers an internal combustion engine for electricity generation. The | [[File:BioenergySteamCharcoal.jpg|thumb|596px| A [[Kon-Tiki Kiln]] (lower right) creates charcoal that can be dumped out to the right as biochar, or onto a hopper (left) where a conveyor belt moves it to a [[Troy Martz Gasifier]] that powers an internal combustion engine for electricity generation. The waste heat rises into a [[Steam Generator]] that powers a [[Steam Engine]].]] | ||
This quick draft is a concept for a small, versatile portable power plant in two [[shipping containers]]. | This quick draft is a concept for a small, versatile portable power plant in two [[shipping containers]]. Any kind of dry biomass can be used as fuel, although wood probably works best. It produces electricity in two ways: from gasified charcoal in an internal combustion engine as well as from waste heat in a [[steam engine]]. Alternative products are [[biochar]] (if not gasified) and steam (if not used to power the steam engine). | ||
==Description (see figure)== | ==Description (see figure)== | ||
* Two 20 ft. shipping containers are used: the lower container is the carbonization/gasifier unit and the upper one is the steam / steam engine unit | * Two 20 ft. shipping containers are used: the lower container is the carbonization/gasifier unit and the upper one is the steam / steam engine unit | ||
* a charcoal-making unit similar to the [[Kon-Tiki Kiln]] is used for "open burn" pyrolysis | * a charcoal-making unit similar to the [[Kon-Tiki Kiln]] is used for "open burn" pyrolysis | ||
* the charcoal can be used as [[biochar]] | * the charcoal can be used as [[biochar]] | ||
* alternatively, charcoal can be fed into a [[Troy Martz Gasifier]] | * alternatively, charcoal can be fed into a [[Troy Martz Gasifier]] | ||
* "waste heat" rises into a [[Steam Generator]] | * "waste heat" rises into a [[Steam Generator]] | ||
* [[Steam]] powers [[Steam Engine]] | * [[Steam]] powers [[Steam Engine]] | ||
==Considerations / Problems== | |||
* the configuration of the [[Troy Martz Gasifier]] will have to be modified significantly. This is just a quick sketch. | |||
* similarly, the configuration of the [[Kon-Tiki Kiln]] will also have to be very different. It is not clear that the dumping option is easy to achieve. | |||
* since the walls of the shipping containers already act as an air barrier, the requirements for the geometry of the [[Kon-Tiki Kiln]] are not as strict as for a free-standing kiln | |||
* Charcoal coming out of the kiln would burn when exposed to air, so the transfer to the gasifier would have to be quick | |||
* Carbon monoxide release is a potential problem | |||
* alternative to the conveyor belt is some kind of auger that transfers the hot charcoal into the holding tank. | |||
* the waste heat from the [[Troy Martz Gasifier]] can be ducted to the [[Steam Generator]] for increased overall efficiency | |||
* the [[Kon-Tiki Kiln]] has to be relatively accessible from all sides to allow fuel loading | |||
* superheated steam may also be produced if the steam coming out of the steam generator is ducted back through the kiln. | |||
==Variations on the Theme== | |||
* skip the [[Troy Martz Gasifier]] and only use the waste heat for power. Perhaps then make the charring unit larger for more energy. | |||
* [[steam turbine]] (or [[Stirling engine]]) may be preferable over steam engine. | |||
* could the entire facility be packaged into a '''single''' shipping container? | |||
* Use a Gas Turbine or ICE First, THEN usee the steam engine; essentially making it a combined cycle heat engine | |||
[[Category:Energy]] | [[Category:Energy]] | ||
[[Category:Biofuel]] | [[Category:Biofuel]] | ||
Latest revision as of 03:06, 28 May 2019
A Kon-Tiki Kiln (lower right) creates charcoal that can be dumped out to the right as biochar, or onto a hopper (left) where a conveyor belt moves it to a Troy Martz Gasifier that powers an internal combustion engine for electricity generation. The waste heat rises into a Steam Generator that powers a Steam Engine.
This quick draft is a concept for a small, versatile portable power plant in two shipping containers. Any kind of dry biomass can be used as fuel, although wood probably works best. It produces electricity in two ways: from gasified charcoal in an internal combustion engine as well as from waste heat in a steam engine. Alternative products are biochar (if not gasified) and steam (if not used to power the steam engine).
Description (see figure)
- Two 20 ft. shipping containers are used: the lower container is the carbonization/gasifier unit and the upper one is the steam / steam engine unit
- a charcoal-making unit similar to the Kon-Tiki Kiln is used for "open burn" pyrolysis
- the charcoal can be used as biochar
- alternatively, charcoal can be fed into a Troy Martz Gasifier
- "waste heat" rises into a Steam Generator
- Steam powers Steam Engine
Considerations / Problems
- the configuration of the Troy Martz Gasifier will have to be modified significantly. This is just a quick sketch.
- similarly, the configuration of the Kon-Tiki Kiln will also have to be very different. It is not clear that the dumping option is easy to achieve.
- since the walls of the shipping containers already act as an air barrier, the requirements for the geometry of the Kon-Tiki Kiln are not as strict as for a free-standing kiln
- Charcoal coming out of the kiln would burn when exposed to air, so the transfer to the gasifier would have to be quick
- Carbon monoxide release is a potential problem
- alternative to the conveyor belt is some kind of auger that transfers the hot charcoal into the holding tank.
- the waste heat from the Troy Martz Gasifier can be ducted to the Steam Generator for increased overall efficiency
- the Kon-Tiki Kiln has to be relatively accessible from all sides to allow fuel loading
- superheated steam may also be produced if the steam coming out of the steam generator is ducted back through the kiln.
Variations on the Theme
- skip the Troy Martz Gasifier and only use the waste heat for power. Perhaps then make the charring unit larger for more energy.
- steam turbine (or Stirling engine) may be preferable over steam engine.
- could the entire facility be packaged into a single shipping container?
- Use a Gas Turbine or ICE First, THEN usee the steam engine; essentially making it a combined cycle heat engine