Small Scale Waste Incineration: Difference between revisions

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(Minor Clarification)
(Added some more information)
 
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*Core Temperature:
*Core Temperature:
*Flame Temperature:
*Flame Temperature:
=Design Optimized for High Plastic / Oily Rag Loading etc=
*The goal with this would be Volume Reduction, and/or [[Waste Stabilization]] (such that it is no longer a fire risk, and/or a [[Plastic Pollution]] risk
*The design consists of a unit that the Waste is Placed in which can swap between Pyrolysis, and [[Gasification]] / [[Combustion]] modes via an Air Valve, as well as a Flue Gas Scrubber / low tech [[Vapor Destruction Unit]] / [[Gas Flare]]
*The operating principle of this design is to separate the sooty burning of Plastic/Oily Rags etc from the “clean” combustion of [[Biomass]] / [[Charcoal]]
**Improvements in [[Fly Ash]] / [[Particulate Matter]] emission MAY occur, but reductions in Hydrocarbon Offgassing/Pyrolysis Gas, Heavy Soot, other pollutants common in Plastic Heavy Waste Blends is the primary goal, not reduction in the Primary Combustor’s Emmissions
**ALTHOUGH if pared with a well designed [[TLUD]] setup or similar low emissions firepit etc this benefit may occur as well
==Main Hearth==
*Either an expendable metal container (such as a paint can), or a more rugged design of [[Fire Brick]] / other [[Refractory Materials]] is used
*Means must be allowed for:
**Easily and Ergonomically Transferring Waste into the Device
**External Heating of the Contents (Via a [[Gas Burner]] or Electric Heating Elements
**Addition of Air and/or Steam to Cook Off the [[Petcoke]] / Char that remains, as well as any [[Tar]] / Creosote
**Easy and Ergonomic Removal of [[Bottom Ash]] and/or [[Clinkers]]
*Also the design should be constructed such that an Operator has a good idea of what is happening inside the device, either by sensors ( [[Pyrometers]] / [[Thermocouples]] ,  Oxygen Sensors from Automotive Market etc) or via a [[View Port]]
*Fail Safe Design / Means of SCRAM-ing the reaction via water quenching or a CO2 Fire Extinguisher]] etc are also welcome additions
*Monitors for leaks of Combustible Gases and Carbon Monoxide, as well as checking “burnup efficiency” are also welcome improvements
==Optional Tar Scrubber==
*Akin to low tech [[Wood Gasifiers]] ,  a sealed container inline utilizing [[Wood Chips]] , [[Sawdust]], [[Charcoal]] ,  or even [[Granulated Activated Carbon]] will allow for any non-cracked Tar]] / [[Creosote]] to be adsorbed and later fed back into the hearth, or combusted
*This prevents the Combustor / [[VDU]] from becoming Flooded, and aids in design of that by making the flow a Single Phase Fluid free from [[Steam Hammer]] etc
==Optional AGR Section==
*Depending on what is being processed, [[Acid Gas Removal]] may be needed
*Steel Wool based Designs, or an Aqueous [[Wet Scrubber]] should suffice
*Main concerns would be [[Chloropolymers]] and [[Fluropolymers]]
**[[Chlorinated Solvents]] / [[Polychlorinated Bisphenol]] etc COULD appear, but are largely absent from the modern market
==Optional [[Gasometer]] ==
*Utilizing a [[Gasometer]] and/or Valves (and potentially a [[Diaphragm Pump]] or something similar if Draft (be it natural, or [[Forced  Draft]] from the Combustor can not be relied on due to it being isolated with valves+shut off) can allow for the Main Hearth and Filters to be run Independently of the Combustor/VDU
*
==Combustor / Vapor Destruction Unit==
*This unit takes the [[Pyrolysis Gas]] ,  and later [[Syngas]] ,  and fully combusts it
*This can either be done in a [[Gas Flare]] running on [[Propane]] / another [[Fuel Gas]] or via a [[Tuyere]] type assembly blowing Fuel Gas (Potentially Pre-Mixed with Combustion Air) into the Hot Coals of a [[Charcoal Grill]] or [[TLUD]] Stove / [[Rocket Stove]]
**A modified Solo Stove/Clone with a pipe fitted to the side going into the fuel/coal bed should suffice
**This fire would need to be fed with (mostly) “clean” fuel such as Wood, [[RDF]] ,  or [[Charcoal]] etc
**Material from the Optional Tar Scrubber MAY be added, depending on how that impacts Burnup Efficiency


=Internal Links=
=Internal Links=

Latest revision as of 23:12, 23 September 2025

Basics

  • This page aims to look at the application of Waste Incineration in the context of a scale similar to Burn Barrels BUT with thought taken to various potential forms of pollution, and ways to prevent/alleviate this.

Reasons for Doing So

  • Disposal of Non-Recyclable Materials (In Areas where Large Scale Processes aren't used for this, just Landfilling) Such As:
  • Privacy/Security ( "Burn Bags" )
    • So Important Documents, Expired Checks/Debit Cards etc
    • Although Shredding and/or Pulping are substitutes to an extent, the issue of local accessibility is another potential justification for small scale waste incineration

Potential Pollution Routes

Unburnt Hydrocarbons/Carbon Monoxide/DPM type soot

  • This is the most straightforward, and the main solution is enough air and heat in the fire
  • Granted Flame Temperature Emissions Curve ranges need to be taken into account (to an extent more heat = more NOx , less heat means more CO etc)
  • Between the small scale+frequency though (compared to Mass Motorization or Grid Scale powerplants etc) this isn't too major of an issue

Dioxins

  • Unlike CO and Hydrocarbons, Dioxins still do pose an issue as they Bioaccumulate
  • How dioxins form, how to minimize this, and how to potentially scrub them from emissions needs to be investigated
    • A TLUD with Charcoal above and below the RDF may be able to trap the dioxins?

Heavy Metals / Misc Elemental Pollutants

  • This is largely an issue of pre-sorting the waste
  • Undyed Paper and Plastics shouldn't have this issue at all
    • Investigating what dyes may contain pollutants that could concentrate in the Bottom Ash etc is something to look in, especially if Ash Utilization is planned
  • Magnetic Strips from Debit Cards and so on may have odd materials in them, granted 1 card per "batch" done every few months or so isn't too significant, needs to be looked into though

Fly Ash Bourne Particulate Matter

  • This cannot be "burned up" unlike Diesel Particulate Matter / Soot type particulate emissions
  • Given scale and frequency shouldn't be TOO huge of an issue, but more dedicated devices could address this with a rudimentary ESP unit etc

Existing Design Evaluation

Open Burning

  • Worst Case Scenario, especially if in a pit (so air cannot enter from the sides unlike if done on a flat surface)

Pan Style Outdoor Fireplace

  • Similar to Open Burning albeit with potentially different thermal characteristics (Better conduction or insulation than soil depending on material used (metal vs ceramic etc)
  • Core Temperature:
  • Flame Temperature:

"Paint Can"

Unventilated

  • Core Temperature:
  • Flame Temperature:

Natural Air Induction

  • IE Holes Drilled in the Bottom and/or Sides for airflow, but no fans or blowers used
  • Core Temperature:
  • Flame Temperature:

Forced Air Induction

  • Core Temperature:
  • Flame Temperature:

55 Gallon Burn Barrel

Unventilated

  • Core Temperature:
  • Flame Temperature:

Natural Air Induction

  • IE Holes Drilled in the Bottom and/or Sides for airflow, but no fans or blowers used
  • Core Temperature:
  • Flame Temperature:

Forced Air Induction

  • Core Temperature:
  • Flame Temperature:

Design Optimized for High Plastic / Oily Rag Loading etc

  • The goal with this would be Volume Reduction, and/or Waste Stabilization (such that it is no longer a fire risk, and/or a Plastic Pollution risk
  • The design consists of a unit that the Waste is Placed in which can swap between Pyrolysis, and Gasification / Combustion modes via an Air Valve, as well as a Flue Gas Scrubber / low tech Vapor Destruction Unit / Gas Flare
  • The operating principle of this design is to separate the sooty burning of Plastic/Oily Rags etc from the “clean” combustion of Biomass / Charcoal
    • Improvements in Fly Ash / Particulate Matter emission MAY occur, but reductions in Hydrocarbon Offgassing/Pyrolysis Gas, Heavy Soot, other pollutants common in Plastic Heavy Waste Blends is the primary goal, not reduction in the Primary Combustor’s Emmissions
    • ALTHOUGH if pared with a well designed TLUD setup or similar low emissions firepit etc this benefit may occur as well

Main Hearth

  • Either an expendable metal container (such as a paint can), or a more rugged design of Fire Brick / other Refractory Materials is used
  • Means must be allowed for:
    • Easily and Ergonomically Transferring Waste into the Device
    • External Heating of the Contents (Via a Gas Burner or Electric Heating Elements
    • Addition of Air and/or Steam to Cook Off the Petcoke / Char that remains, as well as any Tar / Creosote
    • Easy and Ergonomic Removal of Bottom Ash and/or Clinkers
  • Also the design should be constructed such that an Operator has a good idea of what is happening inside the device, either by sensors ( Pyrometers / Thermocouples , Oxygen Sensors from Automotive Market etc) or via a View Port
  • Fail Safe Design / Means of SCRAM-ing the reaction via water quenching or a CO2 Fire Extinguisher]] etc are also welcome additions
  • Monitors for leaks of Combustible Gases and Carbon Monoxide, as well as checking “burnup efficiency” are also welcome improvements

Optional Tar Scrubber

Optional AGR Section

Optional Gasometer

  • Utilizing a Gasometer and/or Valves (and potentially a Diaphragm Pump or something similar if Draft (be it natural, or Forced Draft from the Combustor can not be relied on due to it being isolated with valves+shut off) can allow for the Main Hearth and Filters to be run Independently of the Combustor/VDU

Combustor / Vapor Destruction Unit

  • This unit takes the Pyrolysis Gas , and later Syngas , and fully combusts it
  • This can either be done in a Gas Flare running on Propane / another Fuel Gas or via a Tuyere type assembly blowing Fuel Gas (Potentially Pre-Mixed with Combustion Air) into the Hot Coals of a Charcoal Grill or TLUD Stove / Rocket Stove
    • A modified Solo Stove/Clone with a pipe fitted to the side going into the fuel/coal bed should suffice
    • This fire would need to be fed with (mostly) “clean” fuel such as Wood, RDF , or Charcoal etc
    • Material from the Optional Tar Scrubber MAY be added, depending on how that impacts Burnup Efficiency


Internal Links

  • Small Scale RDF Workflow
    • Similar Concept, However Intense Waste Pre-Sorting and Preparation of Permissible Waste with the goal of producing a high quality fuel/energy (re Waste to Energy ) is the goal, rather than Volume Reduction (ie bags of garbage to a bit of ash) / Waste Destruction

External Links

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