THE BIG ADVENTURE OF A
LITTLE SOLAR COOKER
by Roger Bernard
(Translated from the French by Darwin O'Ryan Curtis)
Half the inhabitants of earth burn wood to cook but more than a billion and
a half of these people are having difficulty finding the fuel. If nothing is
done, this situation can only grow worse because there are ever more
inhabitants of earth and fewer and fewer trees. In the year 2000, according
to United Nations estimates, 2.4 billion people will suffer from a shortage
of fuel wood.
Increasing deforestation causes numerous other degradations of the
environment such as:
- climate modification,
- erosion by wind and rain,
- the destruction of arable land.
Because the affected regions generally have high insolation, (sometimes more
than 300 days of sun per year), it is reasonable to project the use of solar
energy everywhere possible, while reserving wood - that solar energy "in the
can" - for sunless hours and days.
Much research all around the world has resulted in the production of all
kinds of solar cookers. (1) (2) (3)
While solutions could be found for most technical difficulties,
socio-cultural problems, on the other hand, long remained insoluble. Even in
countries in the process of desertification, notably in Africa, people
continued, for better or for worse, to burn the little wood that remained
rather than accepting flameless cookers they were not used to.
Recently, this situation is finally changing thanks to the almost
simultaneous emergence of the three following factors:
- first, a particularly dynamic organization, Solar Cookers International,
decided to focus on the problem;
- next came a particularly dramatic event, the surge of Rwandans into
refugee camps and
- last, the appearance of a particularly simple device: a new solar cooker.
There follows an account of its development.
Born In Lyons, France
The Lyonnaise Association For The Study and Development of Solar Energy,
(ALEDES), based at the University of Lyons I, has been interested in solar
cooking for fifteen years. A number of different cookers have been designed
there and then tried out in various developing countries: Senegal, Burkina
Faso, Mali, The Central African Republic, Vietnam, Haiti.
In general, the cookers functioned well but they proved too sophisticated,
thus too difficult to manufacture and too expensive, to lend themselves to
Paradoxically, it was in seeking the solution to another problem that we
conceived of a cooker that would finally work well in Africa. An organization
wishing to demonstrate solar energy to school children asked us to design a
cooker simple enough for 10 year olds to build without tools in less than one
We first considered a solar box cooker which is composed of nested boxes
with summary insulation like crumpled up paper in between, and covered with a
piece of glass to trap solar radiation. (4) (It is possible to improve the
performance of this model by lining the interior with aluminum paper that
will reflect additional solar rays onto the cooking utensil.) However, it
seemed a bit risky for children to be handling glass panes that could be
easily dropped, break and cut fingers. So, for safety reasons, we were led to
discard the glass, which, in turn, rendered the insolation useless.
Conversely, we increased the reflective surfaces to compensate for heat loss.
The insulation was no longer provided by a fragile piece of glass but by a
simple, transparent Pyrex salad bowl inverted over the cooking pot, as
depicted in fig.1. This apparatus was made simply by cutting up a cardboard
carton for bottles and pasting aluminum foil to the resulting panels.
Baptized In Taylor
At Taylor, in the mountains of Arizona, lives a pioneer of solar cooking:
Barbara Kerr, who built and distributed the first solar box cookers in the
United States back in the 1970s (5). As soon as she heard of our new
prototype, she built one and tested it, solar cooking being possible in
Arizona even in winter. It is she who baptized it the "panel cooker," which
is to say a cooker of reflective panels. She also changed its form a bit,
permitting sharper folds and greater stability. Because this model seemed
best suited for campers due to its light weight and modest volume when folded
up, Barbara Kerr replaced the relatively heavy and cumbersome salad bowl with
an oven-proof transparent plastic bag, fig. 2.
The February, 1994 issue of the Solar Box Journal, published both a
description of the original prototype (6) and of Barbara Kerr's modification
(7). She also presented these models the following July during the
International Congress on Solar Cooking at Heredia, Costa Rica (8).
Improved In Sacramento
Since 1987 Solar Cookers International (SCI) had existed in Sacramento with
the mission of promoting the solar box cooker throughout the world. (See
box.) After Barbara Kerr, several members of this organization built their
own "panel cookers" and were agreeably surprised by the results achieved at
so modest a cost. Each one suggested ways of further improving the stability
and efficiency of the prototype. In particular, Beverly Blum, Edwin Pejack
and Jay Campbell suggested modifications to adapt the cooker to the Torrid
Zone. In fact, the three vertical reflective panels which functioned well in
the Temperate Zone, (for example in France), lose their efficiency if the sun
is very high in the sky because its rays glance off at too shallow an angle.
It is therefore better to slant the panels backward, as is shown in fig. 3,
where the central panel no longer has the shape of a rectangle, but is,
The "CooKit" weighs only 500 grams and folds into a volume of 33x33x6
In SCI's newsletter we read (9):
"Compared to what we have always called our standard "simple solar box ,"
it is even1) simpler, 2) easier to make with fewer materials,
(no window! just half one box), 3)more compact, and 4) easier to set up, take
down and store in seconds.
Furthermore, the model made by SCI is sold in the United States for 75FF
($15) as opposed to 290FF ($58) for the solar box cooker. Thus the mass
production of the CooKit and its distribution in the developing world became
a possibility. Contributions were solicited from the members of SCI to cover
expenses. 115,000FF ($23,000) were raised, and this sum was doubled by an
anonymous donor. The Rotary Club added another 97,000FF ($19,500). Only the
most difficult consideration remained to be confronted: the human equation.
Accepted In Kakuma
The first field contacts occurred in Nairobi in September 1994 between a
couple of SCI volunteers from California and their Kenyan homologues. With
the authorization of the UNHCR (10), they chose a place to experiment in a
semi-arid zone of northwest Kenya. It is the refugee camp at Kakuma where
some 30,000 refugees are surviving in precarious conditions. There is a
fortnightly distribution of food and a few sticks of wood inadequate to cook
it. Some refugees go as far as twelve kilometers (7 miles) from the camp to
cut down trees for firewood, which provokes disputes with the locals. Others
barter some of their meager food ration against some wood with which they can
cook what's left.
In January, 1995, the camp was visited by Beverly Blum, SCI Executive
Director, Barbara Knudson, Jay Campbell and their Kenyan colleague, Faustine
Odaba, who served as interpreter. There was no dearth of difficulties with so
many languages spoken in the camp, so many cultures and so many different
At the outset, a small group of refugees was formed to try solar cooking all
the basic foods available at the camp: rice, beans, bread, sorghum and ugali.
This experiment having been a notable success, 12 women agreed to try solar
cooking at home. After receiving two days of practical training, each was
issued a cooker, a black pot, a plastic bag and three supplemental rations of
food so as not put their own supplies at risk.
The SCI volunteers then organized home visits and meetings to deal with any
problems that arose.
After a couple of weeks, little girls were learning how to solar cook from
their mothers, and one woman began selling solar cooked bread. A month and a
half later, 69 families were using their solar cookers on a regular basis,
and 16 women had received training as solar cooking instructors, to teach the
new technique to other refugees.
After overcoming a few difficulties, and adjusting to a cooking time
markedly longer than for wood fires, Africans began to discover and
appreciate the advantages of solar cooking:
- no smoke inhalation
- minimal water requirement
- reduced surveillance
- no risk of burning the food
- no soot accumulation on pots.
- no worry about fire
- no burns from fire or coals, (notably of the children).
An observer from the United Nations High Commission For Refugees reported:
"The planning and execution of the SCI training programme has been extremely
impressive. Refugee participation is very high...The new solar cooking device
seems to avoid most of the technical and acceptance problems associated with
cumbersome box cookers."
In June, the stock of cookers from the United States having been depleted,
cookers "made in Kenya," manufactured by Africans in Nairobi, were put to
In September, 1995, only two years after the invention of this type of
cooker, and thanks to the efficiency of SCI, more than 1000 families were
using it; more than 5000 people had experienced the proof that the sun could
According to Bev Blum, "the keys to success are a sunny climate and
1) have a motive (such as cooking fuel shortage),
2) receive adequate instruction, and
3) have group encouragement to adapt solar cooking to their needs,
sometimes through group problem-solving."
I would add that the very major participation of women, both from SCI and
from the refugee community, seems to me to have been another important key to
the success at Kakuma.
It remains to be hoped that everyone will now understand the importance of
solar cooking; that it should not be considered solely as a life preserver in
desperate situations, but also as a means of lightening domestic tasks and
preserving the environment everywhere there is the menace of desertification.
And that those in authority will act before, rather than after, the
Contact: ALEDES, Universite Lyon I, 69622 Villeurbanne, France
(A hearty thanks to SCI, and particularly to Beverly Blum, Barbara Kerr, Tom
Sponheim and Kevin Coyle who cheerfully provided me with several documents
for this article.)
1 - Alward, Ron, Solar Cooker Manual , (Quebec: Brace Research Institute,
2 - Bernard, Roger, "Le Soleil a Votre Table," Ed. Silence, 1987.
3- Kuhnke, Klaus, Solar Cookers In The Third World, (Braunschweig: Vieweg,
4 - Solar Cookers International, How To Make, Use and Understand Solar
5 - Kerr, Barbara, The Expanding World Of Solar Box Cookers, 1991.
6 - "The Bernard Solar Panel Cooker," Solar Box Journal No. 16, February,
7 - Barbara Kerr Tests The Solar Panel Cooker (ibid).
8 - Kerr, Barbara, Solar Panel Cookers, A New Low-Tech Design Line,
(Proceedings of the Second World Conference On Solar Cookers, Heredia, Costa
9 - "New Solar Cooker," SCI Newsletter, Fall, 1994.
10 - United Nations High Commission For Refugees.
11 - Blum, Beverly, Dissemination of Solar Cooking In Areas Of Acute Fuel
Shortages, (U. N. Environmental Programme Seminar on Gender and Environment,
Nairobi, Kenya, April, 1995.
SIDEBARS AND CAPTIONS
For a long time, Africans shunned solar cooking as too different from their
habitual wood fires. But things are beginning to change for the greater good
of trees...and of people.
The First Prototype (Lyons, July 1993) (author's drawing)
The Second Prototype (Taylor, November 1993) (drawing by Leona Christie, from
Solar Box Journal, No. 16, February, 1994)
The "CooKit," a "tropical" model with inclined panels (summer, 1994)
SOLAR COOKERS INTERNATIONAL
This non-profit organization is dedicated to promoting solar cooking
worldwide as a service to people and to their environment. It sells cookers
and training materials, including some in French and Spanish. It publishes a
periodical, "The Solar Cooker Review."
For additional information, contact the author of this article or write
directly to SCI at: 1724 Eleventh Street, Sacramento, CA 95814, USA.
A solar cooking demonstration at Kakuma by Faustine Odaba, (January 1995).
The spectators are soon to become actresses. (photo: SCI)
This article appeared in the monthly magazine "SILENCE," No. 202, March 1996.
The publisher is: Editions Silence, 9 rue Dumenge, 69004, Lyons, France,
which also publishes books in French on the ecology, non-violence and
alternative life styles. A catalog is available on request.