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| 1 || Rocketstove || Stove tech
| 1 || Rocketstove || Stove tech
|align="right"| 40.00  
|align="right"| $40.00  
|align="right"| 40.00  
|align="right"| $40.00  
|-  
|-  
|  || binder|| Coop  
|  || binder|| Coop  
|align="right"|.99   
|align="right"|$.99   
|align="right"|.99  
|align="right"|$.99  
|-
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|  || Agriculture waste|| various
|  || Agriculture waste|| various
|align="right"| donated/shipping cost
|align="right"|donated/shipping cost
|align="right"|$27.00   
|align="right"|$27.00   
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|align="right"|$12.00   
|align="right"|$12.00   
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|  || labor for briquette press||  
|  || labor for briquette press|| Jordan King
|align="right"|
|align="right"| Donated
|align="right"|
|align="right"| $20.00
|-
|-
|  || plastic trashbags||  
|  || plastic trashbags|| Grocery Store
|align="right"|$5.00   
|align="right"|$5.00   
|align="right"|$5.00   
|align="right"|$5.00   
|-
|-
|  || bowl/mixing supplies||  
|  || bowl/mixing supplies|| Personal Possession
|align="right"|
|align="right"| Free
|align="right"|
|align="right"| $5
|-
|-
|  || thermometer||  
|  || digital thermometer|| Personal Possession
|align="right"|
|align="right"| Already had (but only needed for testing purposes)
|align="right"|
|align="right"| $30
|-
|-
|colspan="4" align="right" | '''Total Cost'''  
|colspan="4" align="right" | '''Total Cost'''  
|align="right"|  
|align="right"|$150 Total worth
|-
| colspan="4" align="right" | '''Total Cost'''
|align="right"|$95 Total Spent
|}
|}



Revision as of 22:48, 7 May 2010

Template:305inprogress

Example of Deforestation in Haiti

Background

Wood, charcoal , coal and other biomass are used by about 2.4 billion people worldwide as their primary cooking fuel [1]. In ‘developing’ countries, these fuels are often burned in open fires or poorly functioning stoves[2]. Several factors from these cooking processes have been shown to be damaging to human health, especially attributing to respiratory related illness. Indoor smoke given off by these fuels contains constituents including small soot or dust particles that are able to penetrate deep into the lungs. Every year, indoor air pollution is responsible for the death of 1.6 million people - that's one death every 20 seconds [3]. Women and children being the ones most involved or exposed to this environment are worst affected [1]. Charcoal production has been associated with environmental issues such as deforestation which further increases other environmental and social vulnerabilities. The trees that grow most slowly; hardwood trees make the highest quality charcoal, furthering the impact [1]. Wood or wood charcoal is the primary cooking fuel in Haiti, and this dependence has contributed to only 2% of Haiti’s forests remaining [4]. In places like Haiti, the limited availability of wood means that finding gathering fuel consumes time and energy, causes more severe weather, increases vulnerability, reducing capacity, costs money and further stresses an already depleted resource. In some places such as in Mali, due to changes in the energy and economic sectors a pronounced shift from fuel wood to charcoal is happening which is raising concerns for the local resources [5]


There are alternatives to producing charcoal from wood; it can be produced from any appropriate agricultural waste. Several different crops can be used with locality availability dictating what is used. In Haiti dried sugar cane or bagasse is used, as it is a readily available by-product of sugar production. The charcoal briquettes are produced by combing the carbonized biomass with a binder also of local appropriateness, in Haiti cassava flour is used. The mixture is then made into briquettes using some sort of press and left to dry.


The StoveTec rocket stove designed at the Aprovecho Research Center are optimized to provide low cost, low emission and fuel –efficient solutions. They increase heat transfer and combustion efficiency for cleaner and more efficient cooking [6]. The stove can burn wood, charcoal or other biomass. The rocket stoves in use in Haiti now are cutting down the amount of charcoal needed for cooking by as much as 70% [7].

Opportunity Definition

Mitch Girard and Hoon Peerless will be working in conjunction to research, design, test, and report on the use of biomass waste charcoal briquettes for rocket stoves in ENGR305 at Humboldt State University, during Spring Semester 2010. We will be seeking knowledge of biomass material type, binding agents, and charcoal press mechanisms. Outside resources will likely include, faculty of HSU, recent HSU engineering graduates, Aprovecho Research Center, and affiliates that are currently located in Haiti working on appropriate technology for local populations. The goal of the project is to produce biomass charcoal briquettes and a press, and to test the briquettes using the Stovetec rocketstove.

Literature review

This is a review of the available literature pertinent to the Rocket stove biomass charcoal project.

Theory of Stove design

The Main technical objectives of stove design are to: 

  1. Maximize the efficiency of the fuel combustion process
  2. Transfer heat from the source to the food at the required rate as efficiently as possible. [8] 
Rocketsove 4526.JPG

Intro to Charcoal Stoves

  • Even though traditional charcoal stoves are usually more efficient than traditional woodstoves, 60% to 80% of the energy is lost in the process of converting wood to charcoal. Because of lower transport, handling and storage costs per unit of energy, charcoal has many adavantages economically over wood. It burns cleaner producing less smoke and demands less tending to maintain a constant heat output.[8]
  • Design guidelines for charcoal stoves differ from those for wood stoves due to:
  1. the fuel contains more energy per unit of volume and can be packed tightly
  2. most of the heat transfer is from the charcoal bed rather than from moving flames
  3. the fuel only needs to be tended every half hour, or longer, rather than every 3-10 minutes with wood stoves
  4. there is usually no or little smoke from a charcoal fire, so chimneys are not necessary[8]
  • Charcoal stoves are lightweight, portable, have one fire per pot, and have no chimney. Design improvements to increase cooking performance center on changes to the stove body surrounding the firebox.[8]
Basic design components[8]
  • Primary air entrance
  • Grate
  • Combustion chamber
  • Pot Seat
  • Pot Shields
  • Stove Body 

===Stove Testing[8]=== 

  • Tests to reveal quantitative and qualitative information about concerning the performance of the stove and /or fuel will embrace the following:
  1. The amount of fuel required to cook a given amount of food
  2. The thermal efficiency (or Percentage Heat Utilized -PHU) for different rates of boiling water
  3. The range of power output (also expressed as ’turn down ratio’)
  4. The ease of operation
  5. Level of pollution
  6. Maintenance requirements
    • These characteristics will be tested through several water boiling and cooking tests

Charcoal production

Agricultural Waste Materials

When measured in terms of their weight, energy content or nutrient value, agricultural wastes/residues are a vital component in the rural agricultural system. They are a major resource, although patterns of production and use differ widely among different countries and agricultural systems.[9]

Possible agricultural waste materials to make charcoal with:

  • Sugarcane bagasse
  • Corn cob
  • Sawdust
  • Coffee husk
  • Coconut shell
  • Bamboo
  • Groundnut shell
  • Rice husk
Access and Availability
  • Availability of Agr.wastes depends on production as well as social and economic factors
  • Access is influenced by land ownership and status
  • Seasonality of supply is an important [10]
  • Consideration for some storage facilities must be given in order to allow a year-round operation/supply [9]

Environmental Concerns

  • The two main concerns with charcoal production are deforestation and intensive cultivation of mono-cultures and environmental issues in connection with carbonization (I.e. smoke, heat and byproducts)[11]

Charcoal Briquetting

Four major steps[10]:

  1. Preparation of charcoal fines
  2. Mixing the charcoal fines with a binder
  3. Briquetting of the mixture
  4. Drying of the briquettes
Binders
  • Binders are needed when the pressure produced by the compacting equipment is too low for ‘self-bonding’ or when materials are compacted that do not self-bond such as straw, rice, husk and charcoal. Commonly used binding agents include starches from corn, wheat, cassava (manioc), sugar cane molasses, tars, pitch, resins, glues, fibre, fish waste and certain plants like algae[10]
  • The effect of adding a bonding agent is to enhance cohesion and reduce pressure requirements. Binders hold components by both mechanical and chemical adhesion, and occurs when the binder molecules adhere to specific points in the molecular structure of the adherent[11]
  • Cassava, a tropical root crop often used as a binding agent, is quite robust and can be grown in infertile soil. It also has unique properties such as its high viscosity and reisitance to freezing[11]
Data

Useful data to be gather

  • Compaction ratio
  • Firmness of the Briquettes
  • Utilized Heat[11]
  • Burn time

Project Objectives

  • Our objectives are to develop an efficient and production type of briquetting machine made from locally available materials; test different agr. waste materials; test the performance of the machine in terms of compaction ratio, evaluate the firmness of the briquettes, and calculate their heat value[11]

References

  1. 1.0 1.1 1.2 Practical Answers.“Fuel from the Fields: Charcoal from Agricultural Waste”
  2. Smith,K.R."Health impacts of household fuelwood use in developing countries" Food and Agriculture Organization of the United Nations
  3. World Health Organization. "Indoor air pollution and health"
  4. International Lifeline Fund. "Lifeline to Haiti"
  5. Girard, P."Charcoal production and use in Africa: what future?" Food and Agriculture Organization of the United Nations
  6. [1]
  7. "Oregon Company Providing Efficient Stoves to Haiti" The Skanner, January 26, 2010.
  8. 8.0 8.1 8.2 8.3 8.4 8.5 Stewart,Bill. Improved Wood, Waste and Charcoal Burning Stoves. London: IT Publications, 1987.
  9. 9.0 9.1 Martin, Jorelyn, Razel Mae Pineda, Johnyver Manaay, Sugar Ray Handa and Arnulfo Ocreto. "Design and  development of charcoal briquetting machine." USM R&D 16 no. 2 (2008): 85-90.
  10. 10.0 10.1 10.2 Kristoferson, L.A. and V. Bokalders. Renewable Energy Technologies. Oxford: Pergamon, 1986.
  11. 11.0 11.1 11.2 11.3 11.4 Barnard,Geoffrey and Lars Kristoferson. Agricultural Residues as Fuel in the Third World. Technical Report No.4. London: IIED, 1985

Books

  • Stewart,Bill. Improved Wood, Waste and Charcoal Burning Stoves. London: IT

      Publications, 1987. 

  • Barnard,Geoffrey and Lars Kristoferson. Agricultural Residues as Fuel in the Third World. Technical Report

      No.4. London: IIED, 1985. 

  • Kristoferson, L.A. and V. Bokalders. Renewable Energy Technologies. Oxford: Pergamon, 1986. 

Journals

  • Martin, Jorelyn, Razel Mae Pineda, Johnyver Manaay, Sugar Ray Handa and Arnulfo Ocreto. "Design

      and      development of charcoal briquetting machine." USM R&D 16 no. 2 (2008): 85-90. ED: ASK ME HOW TO CLEAN THIS UP AND USE Help:Footnotes.

Literature Used for Project

Books

  • Barnes, Douglas F. 1994. What makes People Cook with Improved Biomass Stoves?

a comparative international review of stove programs. Washington D.C.: World Bank. This book shows fuel and stove combination's from all over the world and goes into detail over efficiency and effects.

  • Foley, Gerald. 1986 Charcoal making in developing countries.

London: Earthscan, International Institute for Environment and Development. Though partially outdated, this book focuses mainly on the fuel type and the production process that the fuel undergoes.

  • Stewart, Bill. 1987. Improved wood, waste, and charcoal burning stoves: a practitioners manual.

London: Intermediate Technology Publications. Mid 80's structural improvements to stove designs that allow for more efficient use of all fuel types, including biomass charcoal.

Journals

  • Antal, Michael J., Eric Croiset, Xiangfeng Dai. High Yield Biomass Charcoal.

Energy Fuels 10(3). 652-658 Advances in the production aspect of high efficiency biomass charcoal, including reaction times decreases and quicker production.

  • Bhattacharya, S.C., D.O. Albina, Aung Myint Khaing.

Effects of selected parameters on performance and emissions of biomass-fired cookstoves. Biomass and Bioenergy 23(5). 387-395 Moisture content, fuel size, pot size, and method of ignition are all compared with the use of three different stove types to determine efficiency.

Web Sources

Criteria

The criteria will help us best judge our project out come and priorities


Criteria Definition Constraints Weight (0-10 highest)
Low/clean emission This means reducing emissions, creating a clean burning fuel 10
Use of local materials biomass and press materials should be locally derived The crops (sugarcane, rice, bamboo) of interest for research are not local to our area. However we are using the local invasive pampas grass. 10
Cultural appropriateness The use and design of the briquette press and the biomass material, as well as the process of making charcoal should be appropriate to the local culture. This project is not appropriate to our local culture and climate 10
Cost should be affordable costs of metal labor, biomass, and materials vary 7
Briquette efficiency Briquettes should be heat efficiency, with an appropriate briquette to meal ratio 9
Briquette durability Briquettes should stay binded and consistent Local climate impacting moisture content affecting durability 8
Press Durability The briquette press should sustain its design and hold up to press large loads of briquettes We will not make as much briquettes or have enough time as needed to test real durability. 7

Time line

Throughout the Spring Semester of 2010, group members researched, designed, tested, and reported on this project. Below are the completed tasks with the representative dates completed. Weather conditions proved difficult during times, thus explaining the density of work at particular dates.

  • Week of March 7th- Receive order of sugarcane bio-waste, purchase binder, construct burning chamber from 55 gallon drum.
  • Week of March 7th- Harvest locally invasive Pampas Grass from the community.
  • Weekend of March 13th- First runs of charcoal manufacturing.
  • March 25th- Design and manufacture charcoal press with scrap metal and some welding.
  • March 15th-31st- More runs of charcoal production with various materials, binders, and press techniques.
  • Beginning of April- Comparative data analysis from previous runs of charcoal production to determine best technique/materials.
  • End of April- Results of project discussed, and information provided to those in need via appropedia.

Budget

Quantity Material Source Cost ($) Total ($)
1 Rocketstove Stove tech $40.00 $40.00
binder Coop $.99 $.99
Agriculture waste various donated/shipping cost $27.00
metal metal salvage shop $10.00 $10.00
55g oil drum metal salvage shop $12.00 $12.00
labor for briquette press Jordan King Donated $20.00
plastic trashbags Grocery Store $5.00 $5.00
bowl/mixing supplies Personal Possession Free $5
digital thermometer Personal Possession Already had (but only needed for testing purposes) $30
Total Cost $150 Total worth
Total Cost $95 Total Spent

ED: COMPLETE THE BUDGET WITHOUT BLANKS AND MAKE TOTAL BE EXACT.

The Process

Charcoal

Materials

  • Biomass
    Biomass 4504.JPG

We used the local invasive Pampas grass as well as a some cat tail

  • Kiln/vessel with lid for carbonizing

We used a 55 gallon drum

Steps

  1. Cut holes on the bottom of the drum for air flow when burning
  2. Fill holes in with biomass
  3. With drum upright fill up with about 75% biomass.

If using different crops or crop parts, layer them. Put a large stick in the middle to assist with air flow.

  1. Place drum on 3 rocks so air flows through the bottom, light from the bottom.
  2. Let burn for 5-10 minutes until smoke clears or changes color
  3. Cover with lid, and remove rocks from the bottom while supporting the drum with the large stick. Seal the bottom with sand or dirt.
  4. Wait at least two hours.
  5. Crush charcoal.

There's many ways to do this, we put it in a plastic bag and stepped on it.

Briquettes

  1. Sift the crushed charcoal to separate larger and/or uncarbonized pieces
  2. Mix binder. We used wheat flour mixed with water. The binder should be a thick, sticky porridge-like consistency.
  3. Combine binder & charcoal. The less the binder is needed, the more ideal. 10%-90% ratio would be ideal and 50%-50% would be too much.
  4. Make briquette using the press.
  5. Dry briquettes.
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