The Development of an Energy Efficient Electric Mitad for Baking Injeras in Ethiopia

Conference Paper (2017)
Author(s)

Robin Jones (External organisation)

Jan-Carel Diehl (TU Delft - Design for Sustainability)

Leon Simons (Magic Ventures)

M. Verwaal (TU Delft - Design Engineering)

Research Group
Design for Sustainability
Copyright
© 2017 Robin Jones, J.C. Diehl, Leon Simons, M. Verwaal
DOI related publication
https://doi.org/10.23919/DUE.2017.7931827
More Info
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Publication Year
2017
Language
English
Copyright
© 2017 Robin Jones, J.C. Diehl, Leon Simons, M. Verwaal
Research Group
Design for Sustainability
Pages (from-to)
75-82
ISBN (print)
978-1-5090-6433-5
ISBN (electronic)
978-0-9946759-2-7
Reuse Rights

Other than for strictly personal use, it is not permitted to download, forward or distribute the text or part of it, without the consent of the author(s) and/or copyright holder(s), unless the work is under an open content license such as Creative Commons.

Abstract

Preparation of Injera, the cultural staple bread food
item in Ethiopia, is known for its intensive energy consuming
cooking. Baking this food item in the traditional three stone stoves,
with an efficiency of 5-15%, consumes huge amounts of firewood
and causes consequent problems like deforestation, global warming
and household air pollution. Electrical injera stoves (mitads) are a
sound alternative in Ethiopia because of the relatively wide
availability of electricity (hydropower). However, these electrical
Mitad have designs dating back to the 1960’s and are highly
inefficient as well and are overloading the electricity grid.
Consequently, a research and design project called ‘Magic Mitad’
was initiated to develop an energy-efficient electric injera mitad.
Starting with the introduction of a new type of fuel-efficient baking
plate a range of research and design experiments were initiated to
further optimize the energy-efficiency as well as the baking quality
of the Magic Mitad. In the first experiment the ‘start-up energy’ of
different baking plates was tested in order to identify and select the
most energy efficient one. During the next experiment, the chosen
type of baking plate was used for baking injeras to study the heat
distribution. A uniform heat distribution is key to produce high
quality injeras. From the result obtained it was concluded that a
different type of heating element was needed. Ten types of
alternative heating elements were selected of which four were
tested in a lab-setting. Ribbon wire heating element was selected,
and optimized in its lay-out. Finally, the prototypes were tested in
Addis Ababa on quality performance and energy-efficiency
compared to electrical clay mitads. The outcomes were successful
in the sense of quality and increased efficiency by 30%.

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