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1. Evaluation of the preference for and viability of clean cookstove adoption in rural Tanzania

   https://doi.org/10.1186/s13705-023-00422-3  

   Gill-Wiehl, Annelise ; Sievers, Sara ; Katikiro, Robert ; Kammen, Daniel M. ( November 2023 , Energy, Sustainability and Society)

   Sustainable Development Goal (SDG) 7 calls for “universal access to affordable, reliable, modern energy services” for the 2.6 billion individuals lacking access to clean cooking fuels and stoves. Low- and middle-income countries are designing policies towards clean fuels, but often prioritize World Health Organization defined ‘clean’ fuels and stoves to urban areas. As clean solutions are explored, it remains unclear what rural households prefer as their clean alternative.

   This study conducted household energy surveys with main cooks across four villages in Shirati, Tanzania to understand rural household preferences within the viable clean fuels. Data analysis includes descriptive statistics and a generalized linear model with the Poisson family and log link to estimate prevalence ratios, all of which were conducted in Microsoft Excel and STATA 16.1.

   The results revealed that while 83% of households (n = 187) stacked a combination of firewood, charcoal, liquified petroleum gas (LPG), and/or kerosene, 82% [95% Confidence Interval: 74%, 89%] of households stated a preference to use LPG. We found that aggregate expenditure on LPG was less than daily purchases of charcoal and firewood. Our analysis found that all villages had a higher prevalence of stacking firewood, charcoal, and LPG, than areas further from the main trading center. Both areas with trading posts had a lower prevalence of using only firewood.

   Household preference should be systematically incorporated into clean cooking policy decisions. Our results imply that LPG should not be pursued only in urban contexts. We discuss how preference affect adoption and the need to include user preferences to meet universal clean cooking access (SDG 7).

    

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2. Buyouts with rentbacks: a policy proposal for managing coastal retreat

   https://doi.org/10.1007/s13412-022-00762-0  

   Keeler, Andrew G. ; Mullin, Megan ; McNamara, Dylan E. ; Smith, Martin D. ( April 2022 , Journal of Environmental Studies and Sciences)

   The discussion of adaptation to climate change in coastal areas has focused on short-term risk reduction and climate-proofing, but there is growing recognition that—at some point in the future—relocation to less vulnerable geographical areas will become necessary for large numbers of residents in many coastal communities. Spontaneous relocations that occur after catastrophic events can entail high costs, both for those who resettle elsewhere and for the remaining community. Managed retreat attempts to reduce such costs, thereby facilitating the relocation process. Property buyouts, the most prominently discussed policy tool for managed retreat, present significant challenges in terms of equity, timing, finance, and scale. We discuss innovation in buyout policy that allows residents to remain in their homes as renters after being bought out. We develop the basic structure of such a policy and show the pathways through which it can help to finance buyouts, harmonize public and private decision-making, and manage the timing of community transition. We also recommend funding mechanisms and other details to overcome the substantial barriers to implementation. Although buyouts with rentbacks will require institutional innovation in order to serve as an effective policy framework, the policy has the potential to improve social, economic, and environmental outcomes from the eventual unfortunate but necessary migration away from coastal areas.

    

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3. Assessing energy sources for powering “evakuula”

   https://doi.org/10.18697/ajfand.114.20600  

   Sempiira, EJ ; Ononye, C ; Robinson, J ; Aralu, A ; Mugisa, DJ ; Katimbo A, A ; Galiwango, J ; Gomillion, C ; Kisaalita, WS ( November 2022 , African Journal of Food, Agriculture, Nutrition and Development)

   Technologies that are appropriate, affordable, and sustainable are needed to increase incomes and resilience among sub-Saharan African smallholder farmers. A combination of thermization and low-cost evaporative cooling, termed Evakuuling, was developed to enable rural smallholder dairy farmers to preserve their evening milk in the absence of grid-electricity. The “EvaKuula” was configured to be powered by biogas. Biogas is used for the thermization process of the system. The evaporative cooling component is powered by wind. Use of biogas from domestic biogas plants add circularity value to smallholder farms. However, domestic biogas plant set-ups are relatively high capital investments and as such, a financial barrier to co-adoption with the EvaKuula. To lower this barrier, other energy sources have been considered. The purpose of this study was to assess alternative energy sources to power the thermization component of the EvaKuula. The list of energy sources considered included biogas, butane, kerosene, charcoal, and firewood. These energy sources were assessed with respect to the sum of the social and market costs. The product of a unit of fuel cost and the units consumed represented the “market cost.” The product of the long-term social carbon cost and total carbon dioxide emission equivalence represented the “social cost.” Regular and improved stoves were included in the charcoal and firewood analysis. As expected, biogas ranked on top of the list, followed by butane and kerosene. However, butane and kerosene are not easily accessible in rural setting. Approximated 76% of farmers in rural sub-Saharan Africa rely on firewood to meet domestic needs like cooking. Butane and kerosene are the fuel sources predominantly used in urban and peri-urban areas, due to accessibility and affordability. Incomes are typically higher among urban dwellers. Therefore, with butane and kerosene not readily available to the target EvaKuula users, the next best option was firewood, provided it is combusted in improved efficient stoves such as Lorena type. Key words: alternative energy, evaporative cooling, sustainable development, food security, circularity, smallholder farmers 

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4. EVALUATING USER INTENTION FOR UPTAKE OF CLEAN TECHNOLOGIES USING THE THEORY OF PLANNED BEHAVIOR

   Pakravan, Mohammad ; MacCarty, Nordica A ( January 2018 , ASME Design Engineering Technical Conferences)

   Understanding and integrating a user’s decision-making process into design and implementation strategies for clean energy technologies may lead to higher product adoption rates and ultimately increased impacts, particularly for those products that require a change in habit or behavior. To evaluate the key attributes that formulate a user’s decision-making behavior to adopt a new clean technology, this study presents the application of the Theory of Planned Behavior, a method to quantify the main psychological attributes that make up a user’s intention for health and environmental behaviors. This theory was applied to the study of biomass cookstoves. Surveys in two rural communities in Honduras and Uganda were conducted to evaluate households’ intentions regarding adoption of improved biomass cookstoves. Multiple ordered logistic regressions method presented the most statistically significant results for the collected data of the case studies. Baseline results showed users had a significant positive mindset to replace their traditional practices. In Honduras, users valued smoke reduction more than other attributes and in average the odds for a household with slightly higher attitude toward reducing smoke emissions were 2.1 times greater to use a clean technology than someone who did not value smoke reduction as much. In Uganda, less firewood consumption was the most important attribute and on average the odds for households were 1.9 times more to adopt a clean technology to save fuel than someone who did not value fuelwood saving as much. After two months of using a cookstove, in Honduras, households’ perception of the feasibility of replacing traditional stoves, or perceived behavioral control, slightly decreased suggesting that as users became more familiar with the clean technology they perceived less hindrances to change their traditional habits. Information such as this could be utilized for design of the technologies that require user behavior changes to be effective. 

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5. EVALUATING USER INTENTION FOR UPTAKE OF CLEAN TECHNOLOGIES USING THE THEORY OF PLANNED BEHAVIOR

   Pakravan, Mohammad ; MacCarty, Nordica ( January 2018 , Proceedings of the ... ASME Design Engineering Technical Conferences)

   Understanding and integrating a user’s decision-making process into design and implementation strategies for clean energy technologies may lead to higher product adoption rates and ultimately increased impacts, particularly for those products that require a change in habit or behavior. To evaluate the key attributes that formulate a user’s decision-making behavior to adopt a new clean technology, this study presents the application of the Theory of Planned Behavior, a method to quantify the main psychological attributes that make up a user’s intention for health and environmental behaviors. This theory was applied to the study of biomass cookstoves. Surveys in two rural communities in Honduras and Uganda were conducted to evaluate households’ intentions regarding adoption of improved biomass cookstoves. Multiple ordered logistic regressions method presented the most statistically significant results for the collected data of the case studies. Baseline results showed users had a significant positive mindset to replace their traditional practices. In Honduras, users valued smoke reduction more than other attributes and in average the odds for a household with slightly higher attitude toward reducing smoke emissions were 2.1 times greater to use a clean technology than someone who did not value smoke reduction as much. In Uganda, less firewood consumption was the most important attribute and on average the odds for households were 1.9 times more to adopt a clean technology to save fuel than someone who did not value fuelwood saving as much. After two months of using a cookstove, in Honduras, households’ perception of the feasibility of replacing traditional stoves, or perceived behavioral control, slightly decreased suggesting that as users became more familiar with the clean technology they perceived less hindrances to change their traditional habits. Information such as this could be utilized for design of the technologies that require user behavior changes to be effective. 

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