Adoption and use of a semi-gasifier cooking and water heating stove and fuel intervention in the Tibetan Plateau, China - TIB AV-Portal

Adoption and use of a semi-gasifier cooking and water heating stove and fuel intervention in the Tibetan Plateau, China

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Formale Metadaten

Titel

Adoption and use of a semi-gasifier cooking and water heating stove and fuel intervention in the Tibetan Plateau, China

Serientitel

Environmental Research Letters, Volume 12, 2017

Anzahl der Teile

19

Autor

Tseng, J. T. W.

Pattanayak, S. K.

Baumgartner, J.

Lizenz

CC-Namensnennung 3.0 Unported:
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Identifikatoren

10.5446/39388 (DOI)

Herausgeber

Institute of Physics (IOP)

Erscheinungsjahr

Sprache

Inhaltliche Metadaten

Fachgebiet

Genre

Abstract

Improved cookstoves and fuels, such as advanced gasifier stoves, carry the promise of improving health outcomes, preserving local environments, and reducing climate-forcing air pollutants. However, low adoption and use of these stoves in many settings has limited their benefits. We aimed to improve the understanding of improved stove use by describing the patterns and predictors of adoption of a semi-gasifier stove and processed biomass fuel intervention in southwestern China. Of 113 intervention homes interviewed, 79% of homes tried the stove, and the majority of these (92%) continued using it 5–10 months later. One to five months after intervention, the average proportion of days that the semi-gasifier stove was in use was modest (40.4% [95% CI 34.3–46.6]), and further declined over 13 months. Homes that received the stove in the first batch used it more frequently (67.2% [95% CI 42.1−92.3] days in use) than homes that received it in the second batch (29.3% [95% CI 13.8−44.5] days in use), likely because of stove quality and user training. Household stove use was positively associated with reported cooking needs and negatively associated with age of the main cook, household socioeconomic status, and the availability of substitute cleaner-burning stoves. Our results show that even a carefully engineered, multi-purpose semi-gasifier stove and fuel intervention contributed modestly to overall household energy use in rural China.

Environmental Research Letters, Volume 12, 201714 / 19

1

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Limiting climate change: what's most worth doing?

2

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Irrigation offsets wheat yield reductions from warming temperatures

3

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Influence of El Niño Southern Oscillation on global hydropower production

4

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Impacts of increasing aridity and wildfires on aerosol loading in the intermountain Western US

5

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How does the SST variability over the western North Atlantic Ocean control Arctic warming over the Barents–Kara Seas?

6

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Health benefits, ecological threats of low-carbon electricity

7

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Deciphering the expression of climate change within the Lower Colorado River basin by stochastic simulation of convective rainfall

8

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Contamination of the Arctic reflected in microbial metagenomes from the Greenland ice sheet

9

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Carbon tax effects on the poor: a SAM-based approach

10

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Assessing inter-sectoral climate change risks: the role of Inter-Sectoral Impact Model Intercomparison Project (ISIMIP)

11

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Assessing ExxonMobil's climate change communications (1977–2014)

12

04:41

Are forest disturbances amplifying or canceling out climate change-induced productivity changes in European forests?

13

02:02

Air pollution impacts on avian species via inhalation exposure and associated outcomes

14

04:06

Adoption and use of a semi-gasifier cooking and water heating stove and fuel intervention in the Tibetan Plateau, China

15

02:48

Warmer spring conditions increase annual methane emissions from a boreal peat landscape with sporadic permafrost

16

03:37

The climate mitigation gap: education and government recommendations miss the most effective individual actions

17

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Replacement policy of residential lighting optimized for cost, energy, and greenhouse gas emissions

18

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Prospects for generating electricity by large onshore and offshore wind farms

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National- to port-level inventories of shipping emissions in China

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Transkript: Englisch(automatisch erzeugt)

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Billions of people worldwide are regularly exposed to air pollution in their home from cooking or heating with coal, wood, or other types of biomass fuel in open fires or traditional stoves. Household biomass burning is a significant source of both indoor and outdoor air pollution and is a major contributor to the global burn disease and climate warming.

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Over the last four decades, millions of higher efficiency biomass stoves have been distributed to homes to reduce wood consumption and air pollution, but poor emissions performances and low levels of new stove adoption and use have limited the success of most improved stove programs in achieving their intended environmental and health goals.

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China has prioritized the production and use of processed or pelletized biomass for energy, which can burn more cleanly than unprocessed wood or biomass fuel. Engineers at China's Tsinghua University designed a high-efficiency household semi-gas fire cooking and water heating

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stove through an iterative process involving air pollution, emissions testing, and user input in each design phase. Our interdisciplinary team of health and climate scientists, economists, and engineers conducted a study in China's eastern Tibetan Plateau region to evaluate the short- and long-term usage patterns of a semi-gas

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fire stove and pelletized biomass fuel intervention, as well as the barriers and enablers of stove adoption. 204 households in 12 villages were enrolled in the study in 2014. Half of the villages, comprising 125 homes, were approached to receive the intervention package in 2015.

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Stoves were distributed in two phases, with a quarter of the stoves going into homes six months before the rest. Households that acted as controls for the study received the intervention 12 to 18 months after the intervention homes. Immediately following the intervention, we continuously monitored stove use by placing small

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temperature sensors on stoves in 38 homes for 5 to 13 months. Additionally, in the summer, we placed temperature sensors on 140 homes to monitor shorter-term trends in stove use and administered a questionnaire to evaluate the uptake and adoption of the intervention, as well as what households liked and disliked about it.

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So we found that 79% of homes reported trying the intervention stove at least once, which we defined as uptake. Of homes that tried the stove, 92% reported continuing to use it after 5 to 10 months, which we defined as adoption. From a subset of homes monitored for longer-term trends in stove use, the

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proportion of days the intervention stove was in use each month was modest, around 45%. And the month with the highest levels of use was the first month following intervention for both Phase 1 and Phase 2 homes, and continued to decline at 5 and 13 months post-intervention.

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We also found from our short-term monitoring that while the intervention stove was used by 40% of households, it was often used in combination with the traditional stove, which may limit its effectiveness in reducing air pollution exposures. We identified a number of household factors associated with intervention uptake and use, which were specific to the context of

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our intervention, but also have all been identified as drivers or barriers to other improved stove programs documented in the literature. For example, stove breakage, delayed user training, and the inability of the stove to meet households' diverse cooking needs were associated with lower levels of use.

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While most households tried the intervention stove and the majority continued to use it at least 5 months following intervention, the overall levels of use were modest over the long term, and the intervention did not fully replace the traditional stoves. Without more complete and sustained adoption of intervention stoves and fuels, their projected health and environmental benefits cannot be realized.