热二极管!为全球穷人提供廉价的烹饪和电力?

Q1 Economics, Econometrics and Finance

Development Engineering Pub Date : 2019-01-01 DOI:10.1016/j.deveng.2019.100044

Grace Gius , Matthew Walker , Andre Li , Nicholas J. Adams , Robert Van Buskirk , Pete Schwartz

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引用次数: 9

摘要

直接直流太阳能(DDS)电力可以廉价地烹饪食物和给电器充电。使烹饪室绝缘可以使食物在更长的烹饪时间内用更低功率(更便宜)的太阳能电池板烹饪。我们解释了如何使用一串二极管代替电阻加热器在各种太阳强度下从太阳能电池板中提取更多的能量，并作为一个粗糙，廉价的电压调节器为电池和电力设备充电。我们展示了二极管加热器如何从太阳能电池板产生比DDS电阻加热器或PWM/电池连接的电阻加热器更多的热量，平均各种太阳强度。由此产生的电力成本在许多地区与生物质烹饪相比已经具有成本竞争力。好处包括廉价的电力供应，以及减少室内空气污染、森林砍伐和提供烹饪燃料的成本/负担。随着太阳能电池板价格的持续下降，DDS将更加有效地为全球穷人提供电力和电烹饪。

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Hot diodes!: Dirt cheap cooking and electricity for the global poor?

Direct DC Solar (DDS) electricity can inexpensively cook food and charge appliances. Insulating the cooking chamber allows the food to cook with a lower-power (less expensive) solar panel over a longer cooking time. We explain how using a chain of diodes instead of a resistive heater extracts more energy from a solar panel over a variety of solar intensities and also acts as a rough, inexpensive voltage regulator to charge batteries and power appliances. We show how a diode heater produces more heat from a solar panel than either a DDS resistive heater or a PWM/battery-connected resistive heater, averaged over a wide variety of solar intensities. The resulting cost of electricity is already cost competitive with biomass cooking in many areas. Benefits include inexpensive access to electricity as well as reductions in indoor air pollution, deforestation, and cost/burden of providing cooking fuel. With continued decrease in the price of solar panels, DDS will become ever more effective for bringing electricity and electrical cooking to the global poor.

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来源期刊

Development Engineering Economics, Econometrics and Finance-Economics, Econometrics and Finance (all)

CiteScore

4.90

自引率

0.00%

发文量

审稿时长

31 weeks

期刊介绍： Development Engineering: The Journal of Engineering in Economic Development (Dev Eng) is an open access, interdisciplinary journal applying engineering and economic research to the problems of poverty. Published studies must present novel research motivated by a specific global development problem. The journal serves as a bridge between engineers, economists, and other scientists involved in research on human, social, and economic development. Specific topics include: • Engineering research in response to unique constraints imposed by poverty. • Assessment of pro-poor technology solutions, including field performance, consumer adoption, and end-user impacts. • Novel technologies or tools for measuring behavioral, economic, and social outcomes in low-resource settings. • Hypothesis-generating research that explores technology markets and the role of innovation in economic development. • Lessons from the field, especially null results from field trials and technical failure analyses. • Rigorous analysis of existing development "solutions" through an engineering or economic lens. Although the journal focuses on quantitative, scientific approaches, it is intended to be suitable for a wider audience of development practitioners and policy makers, with evidence that can be used to improve decision-making. It also will be useful for engineering and applied economics faculty who conduct research or teach in "technology for development."