Field Testing of Alternative Cookstove Performance in a Rural Setting of Western India

Overview

Journal Int J Environ Res Public Health

Publisher MDPI

Specialties Environmental Health
Public Health

Date 2015 Feb 6

PMID 25654775

Citations 11

Authors

Veena Muralidharan

Thomas E Sussan

Sneha Limaye

Kirsten Koehler

DAnn L Williams

Ana M Rule

Sanjay Juvekar

Patrick N Breysse

Sundeep Salvi

Shyam Biswal

Affiliations

Soon will be listed here.

Abstract

Nearly three billion people use solid fuels for cooking and heating, which leads to extremely high levels of household air pollution and is a major cause of morbidity and mortality. Many stove manufacturers have developed alternative cookstoves (ACSs) that are aimed at reducing emissions and fuel consumption. Here, we tested a traditional clay chulha cookstove (TCS) and five commercially available ACSs, including both natural draft (Greenway Smart Stove, Envirofit PCS-1) and forced draft stoves (BioLite HomeStove, Philips Woodstove HD4012, and Eco-Chulha XXL), in a test kitchen in a rural village of western India. Compared to the TCS, the ACSs produced significant reductions in particulate matter less than 2.5 µm (PM2.5) and CO concentrations (Envirofit: 22%/16%, Greenway: 24%/42%, BioLite: 40%/35%, Philips: 66%/55% and Eco-Chulha: 61%/42%), which persisted after normalization for fuel consumption or useful energy. PM2.5 and CO concentrations were lower for forced draft stoves than natural draft stoves. Furthermore, the Philips and Eco-Chulha units exhibited higher cooking efficiency than the TCS. Despite significant reductions in concentrations, all ACSs failed to achieve PM2.5 levels that are considered safe by the World Health Organization (ACSs: 277-714 μg/m³ or 11-28 fold higher than the WHO recommendation of 25 μg/m³).

Citing Articles

Fine Particulate Matter and Gaseous Compounds in Kitchens and Outdoor Air of Different Dwellings.

Alves C, Vicente A, Oliveira A, Candeias C, Vicente E, Nunes T Int J Environ Res Public Health. 2020; 17(14).

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Personal strategies to minimise effects of air pollution on respiratory health: advice for providers, patients and the public.

Carlsten C, Salvi S, Wong G, Chung K Eur Respir J. 2020; 55(6).

PMID: 32241830 PMC: 7270362. DOI: 10.1183/13993003.02056-2019.

Emission factors of health- and climate-relevant pollutants measured in home during a carbon-finance-approved cookstove intervention in rural India.

Grieshop A, Jain G, Sethuraman K, Marshall J Geohealth. 2020; 1(5):222-236.

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Profile: Vadu Health and Demographic Surveillance System Pune, India.

Patil R, Roy S, Ingole V, Bhattacharjee T, Chaudhary B, Lele P J Glob Health. 2019; 9(1):010202.

PMID: 31263545 PMC: 6594669. DOI: 10.7189/jogh.09.010202.

Fuel Efficiency and Air Pollutant Concentrations of Wood-Burning Improved Cookstoves in Malawi: Implications for Scaling-up Cookstove Programs.

Jagger P, Pedit J, Bittner A, Hamrick L, Phwandapwhanda T, Jumbe C Energy Sustain Dev. 2018; 41:112-120.

PMID: 29731584 PMC: 5930929. DOI: 10.1016/j.esd.2017.08.007.

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