Metal

Fuel Efficient Stove Programs in IDP Settings - Summary Evaluation Report, Darfur
Academy for Educational Development for USAID, December 2008

1. INTRODUCTION: EVALUATION OBJECTIVES
Around the world, conflict and natural disasters have displaced millions of people. Displaced populations fleeing to settlement camps and seeking safety in host villages often put great stress on natural resources, leading to environmental degradation and conflict with local populations. One of the greatest needs of people affected by crisis, be they displaced, settled, or on the move, is firewood or some other type of fuel to cook their food, heat their homes, and treat water for drinking and food preparation. The risks endured (especially by women and children) collecting scarce wood resources constitute some of the most challenging and serious protection concerns both in IDP camps and in villages where conflict over resources is high.

USAID’s Office of Foreign Disaster Assistance (OFDA) has been one of the key US Government entities providing funding for humanitarian organizations implementing fuel-efficient stove (FES) programs in populations of internally displaced persons (IDPs). The FES programs are intended to help accomplish various goals, such as improved food security or decreased deforestation, by reducing fuel consumption. However, the large number of implementers, their varying program objectives and degrees of expertise, and differing conditions within and among IDP communities have made it difficult for OFDA to determine the relative efficacy of the FES interventions and provide guidelines for USAID-funded institutions working in IDP settings.

OFDA therefore enlisted the assistance of the USAID Energy Team to undertake a multi-phase evaluation in order to derive “best practices” for future FES interventions. While the primary purpose of this evaluation is to provide guidance to USAID-funded organizations, USAID hopes to inform the broader humanitarian community by sharing the results of the evaluation with other organizations. Eventually, the best practices will be developed into a series of recommendations and toolkits for use by NGOs, donors, and other groups operating FES programs in IDP settings.

Phase I of the evaluation (November 2006) was a desk study of recent FES projects in refugee and IDP settings. Based on the desk study findings, Phase II (December 2006) entailed the development of a methodology for conducting the evaluation fieldwork. Phase III involved on-site research in IDP camps in Northern Uganda and in Darfur. The Northern Uganda report has been completed and is available on USAID’s web site.1 Phase IV will entail the development of recommendations and tools to improve FES programs.
The Phase III field research in Darfur took place in two phases. First, a four-day review and training on the evaluation methodology and tools was held in Khartoum in March 2008 with the assessment team. The fieldwork in Darfur IDP camps took place from 16 April to 9 May 2008, with a six-person all-Sudanese team composed of technical stove experts and social scientists. Three OFDA-funded NGO FES programs, one in each region of Darfur, were selected for assessment. However, due to continued security concerns and the difficult logistics of deploying a team of investigators into Darfur, it was possible to include only two regions in the assessment. This report summarizes findings regarding programs being implemented by two organizations in Otash Camp in Nyala, South Darfur, and one organization in Kabkabiya near El Fasher, North Darfur. The implementing NGOs are not named in this report and are identified only as NGO A, B, and C.

The evaluation methodology incorporated a number of different tools to collect both quantitative and qualitative data on the FES programs. The underlying objectives were to determine 1) if the FES interventions were meeting their fuel saving goals, and 2) why or why not. Specific areas examined included:

• •cooking technologies
• •user outreach and education programs
• •stove production and dissemination strategies
• •FES project monitoring and evaluation (M&E) frameworks

In total, the field team conducted 150 household energy surveys, 66 controlled cooking tests, and 50 water boiling tests, as well as camp and programmatic surveys, focus group discussions, and informal participant observation and interviews. This summary report consolidates the findings from the three Darfur program evaluations and presents OFDA with preliminary recommendations designed to improve the impact and quality of its future support to FES activities in IDP situations. Final recommendations and guidance from “lessons learned” will be developed from the findings of both the Darfur and Northern Uganda assessments.

This is the prototype of Magh series "Magh Utham Woodgas Burner". http://e-maghutham.blogspot.com/ This is a natural draft burner (forced air is optional). Low cost, low weight, easy of operation, easy to collect the biochar by rotating the combustion frame and easy to reload it. As it is can be used for boilers / institutional stoves / domestic cooking / etc. The performance is good. There could be some more improvements in its design to increase its performance. For details and photographs see the link http://e-maghutham.blogspot.com/ . The term "Utham" refers to "Best" which is part of the name of Prof. K. Purushotham Reddy a very well known environmentalist in India.

Magh CM-II natural draft woodgas stove http://e-maghcm-ii.blogspot.com/, it is a very low-cost stove for heating and generating charcoal. It can also be described as a mini-charcoal making metal kiln. Instead of incinerating biomass generated from home gardens / any other dry combustible material generated as household waste usually throw into the garbage bins, can be used here. The leaf litter, dry twigs / sticks, chips of wood, wood shavings, etc., are very much suitable.

Save80 Stove inCDM and Refugee/IDP Projects 2005-2008
July 2008

See also, UNHCR: Save80 in Darfur February 2008

Finding trees in the Desert:Firewood Collection and Alternatives in Darfur Women's Commission for Refugees and Children 2006

Beyond Firewood Fuel Alternatives and Protection Strategies for Displaced Women and Girls 2006

Internal Displacement Monitoring Center2008
Update on Chad November2007
CDM Cookstove Project Soutwest Sulawesi 1
LHL/DARE Efficient Wood Fuel Cooking Stovesfor Nigeria CDM Project

Cookstove System Save80
LUSAKA SUSTAINABLE ENERGY PROJECT and COOK STOVE PROJECT KUPANG
Climate Interchange AG,Garching/Munich, Germany, July 2008
Cookstove Save80

Searching for an insertable insert stove
Ronald Hongsermeier, July 24, 2008

Tom Reed,

MJA Biomass Gas Stove
Alexis Belonio, July 23, 2008
MJA Biomass Gas Stove Burning Coal

Alexis Belonio writes (edited and annotated by Paul Anderson and Tom Miles):

Attached is a picture of my latest coal gasifier stove. This
is the same basic TLUD stove I have for wood charcoal and wood chunks.

For domestic use, I use carbonized coal (or coke) as fuel instead
of the raw coal. Coal can be used for the stove, but we don't want to promote
this as a fuel since it emits poisonous gas. I would prefer to use coal for
industry application where gas can be cleaned before it is released to the
atmosphere.

I provide only a small amount of coal fuel in the gasifier stove, enough
for cooking. This mean that the power output is only small and the
metal I use is a stainless steel.

I ignite the carbonized coal by using a wood charcoal that has been soaked in
kerosene as igniter. [This is a TLUD stove, so ignition is at the top.]

[In the Belonio TLUDs, the fan only blows the primary air. The
secondary air is
pre-heated as it rises naturally between the fuel cylinder and the outer
cylinder, finally exiting into the rising flow of combustible gases.]
The smoke in the coal gasifier I have was eliminated [combusted] by mixing
preheated air with the gas generated from the reactor. I think
there is no need of [forced] mixing the secondary air by creating turbulence
with the combustible gases. Because in that case, you will need a
slightly bigger fan with enough pressure to push the air.
MJ Biomass Gas Stove

Alexis Belonio
atbelonio@yahoo.com

Coconut fiber Stove, Biomass Shredder and Pelletizer

Alexis Belonio, University of the Phillipines, May, 2008

Cocopeat Pelletizer

Delta State Pilot Study Final Report, Selected Photos (attached pdf)

Jim Murren, Project Gaia, April 2008

Providing Users’ Responses to the Methanol-fueled CleanCook Stove during Project Gaia’s 2007 Pilot Study in Delta State, Nigeria

User Feedback - Clean Cook Stove

Hybrid Stove Making Charcoal (YouTube)
Lanny Henson, July 26, 2007

Biomass cooking stove burns wood to charcoal and saves the charcoal. One pound of wood cooks 6 kilos of rice and makes 65 grams of char.

http://www.youtube.com/watch?v=BGXv7buNUMY

Hybrid Stove Burning Bamboo Pan Cooking

http://www.youtube.com/watch?v=oIsNZHSkX8k

Here is another 3 min video of the Hybrid Stove burning bamboo chips and pan cooking eggs.
Bamboo chips burns well in the Side Supply Burner but the pan only reached medium heat.
The heat from the burner seems to be diffusing and bypassing the pan. Enough heat is being generated by the burner but the pan module lacks focus.
Suggestions to fix pan module?

Lanny