Charcoal as an Energy Resource: Global Trade, Production and Socioeconomic Practices Observed in Uganda

Nabukalu, Catherine; Gieré, Reto

doi:10.3390/resources8040183

Cited by 53 publications

(41 citation statements)

References 33 publications

(99 reference statements)

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“…When burned, plastics can contribute to emissions of hydrochloric acid (HCl) (Stockwell et al 2016) which impacts abundance of tropospheric ozone and OH (Sherwen et al 2017;Wang et al 2019), but can also rapidly partition into the aerosol phase if ammonium is present (Pio et al, 1987) or dry deposit efficiently onto surfaces (Fowler et al, 2009). At these end-use locations, the importance of charcoal quality becomes less, reason being, the various tree species harvested to produce charcoal are put through a single pyrolysis process and the charcoal lumps produced are put in to bags from their production sites indiscriminately (Nabukalu et al, 2019). The most common cookstove used to burn charcoal in Africa is the traditional cookstove (Arthur et al, 2010) generally made of metal with a grating at the base as shown in Figure 2.4.…”

Section: The Charcoal Supply Chain In Africamentioning

confidence: 99%

Air Pollution and Climate Forcing of the Charcoal Industry in Africa

Bockarie

Marais

MacKenzie

2020

Environ. Sci. Technol.

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Demand for charcoal in Africa is growing rapidly, driven by urbanization and lack of access to electricity and other reliable and clean off-grid energy. Charcoal production and use, including plastic burning to initiate combustion, release large quantities of trace gases and particles that impact air quality and climate. In this work, past (2000)(2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014) trends in charcoal production and use in Africa are quantified and the dominant drivers identified to forecast the future (2030) of the industry. An inventory of current (2014) and future (2030) emissions from the charcoal supply chain in Africa has also been developed and implemented in the GEOS-Chem chemical transport model to quantify the contribution of charcoal to surface concentrations of PM2.5 and ozone, and direct radiative forcing due to aerosols and ozone. Charcoal production (and use) increased from 2000 to 2014 in Africa by a factor of 2. In 2014, the charcoal industry required 140-460 Tg fuelwood, depending on efficiency of combustion, to produce charcoal and 260 tonnes plastic for charcoal use to initiate combustion. The variability in wood required is due to variability in combustion efficiency of 9-30% that depends on kiln type and technology. The plastic use is an educated guess in the absence of statistics on its use and is most prevalent in low-income homes. A rough estimate of forest loss suggests that by 2030, 4.4-15 million hectares of forest will be lost in Africa due to charcoal production. By 2030, charcoal production will almost double which will drive a similar increase in emissions from the industry. Charcoal production makes a substantial contribution to CH4 emissions in Africa. These may outcompete CH4 emissions from open fires in West Africa by 2025. As expected, inefficient combustion emissions of CH4, NMVOCs, and CO are predominantly from charcoal production, whereas BC and NOx, signatures of efficient vTABLE OF CONTENTS LIST OF FIGURES .

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Section: The Charcoal Supply Chain In Africamentioning

confidence: 99%

Air Pollution and Climate Forcing of the Charcoal Industry in Africa

Bockarie

Marais

MacKenzie

2020

Environ. Sci. Technol.

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“…Firewood and charcoal are a major source of income for households in sub-Saharan Africa [13,14]. The contribution of firewood and charcoal to Uganda's annual Gross Domestic Product (GDP) is around US$ 48 million and US$ 26.8 million, respectively [10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Thermal and mechanical characteristics of local firewood species and resulting charcoal produced by slow pyrolysis

Lubwama

Yiga

Ssempijja

et al. 2021

Biomass Conv. Bioref.

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The main source of fuel for domestic cooking applications in Sub-Saharan Africa is either locally available firewood species or charcoal produced by slow pyrolysis of these species. However, very few studies exist that characterize and quantify physical properties, burning rates, peak temperatures, and calorific values of typical firewood species and resulting charcoal fuels produced by slow pyrolysis. This study evaluated the mechanical and thermal properties of firewood and charcoal from five tree species namely: Dichrostachys cinerea, Morus Lactea, Piliostigma thonningii, Combretum molle, and Albizia grandibracteata. Characterization was done by scanning electron microscopy, thermogravimetric analysis, bomb calorimetry, Fourier transform infrared spectroscopy, bulk density measurements, and durability, water boiling and absorption tests. SEM images showed the development of macropores on charcoal after slow pyrolysis. Peak temperatures during firewood and charcoal combustion ranged between 515.5–621.8 °C and 741.6–785.9 °C, respectively. Maximum flame temperatures ranged between 786.9–870.8 °C for firewood and 634.4–737.3 °C for charcoal. Bulk densities and calorific values of charcoal species were higher than those for firewood species. Drop strengths for firewood were all 100% while for charcoal were between 93.7 and 100%. Water boiling tests indicated that firewood fuel performed better that charcoal fuel for low amounts of water due to higher maximum flame temperatures obtained during combustion of firewood.

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“…Unfortunately, man's need is insatiable and consistently growing in scale thereby posing danger to available natural resources which includes forest resource. Charcoal is one of the most utilized product of savannah woodland which is a natural resource, studies have shown that charcoal is no longer a source of energy to only rural households but also a demanded commodity in urban areas around the world which has resulted in the commercialization of its production, particularly among poor and rural dwellers of developing countries such as Nigeria [1]. In line with Pedro [2], any intervention that will be made to protect ecological system while also enhancing income through commercial charcoal production must seek to understand the nexus between socioeconomic status of the people and commercial charcoal production activity.…”

Section: Introductionmentioning

confidence: 99%

Examining the Relationship between Commercial Charcoal Production and Socioeconomic Variables in Nasarawa State, North-Central Nigeria

Salamatu

Ozim

Ogah

2020

JGEESI

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Charcoal is no longer a source of energy to only rural households but also a demanded commodity in urban areas around the world which has resulted in the commercialization of its production, particularly rural dwellers of developing countries such as Nigeria. Given the observed growing significance of charcoal in rural and urban livelihoods in Nasarawa State, this paper examined the relationship between commercial charcoal production and socioeconomic characteristics of the people involved in the activity. The study employed descriptive survey using both qualitative and quantitative data drawn from primary and secondary sources. Questionnaire was administered to 450 respondents randomly sampled from commercial charcoal producers drawn from 6 communities and 3 LGAs of Nasarawa State. Interviews and Focus Group Discussions were also conducted and the data obtained were analysed using descriptive and inferential statistics in Microsoft Excel and SPSS (version 23). Results showed that commercial charcoal producers in the study area were mostly between 21 and 50 years with dominance of those between 31 and 40 (30.9%) while those above 50 years were least represented (6. 9%).There was slight dominance of women (52.4%) among the producers and the they were mostly primary (44%) and secondary (35.6%) school certificate. Majority (48.2%) had household size of 4 – 6 and more than half (52.9%) were married and earned 20,000 naira and below on monthly basis (46.4%). There is strong relationship between the socioeconomic status of the respondents and commercial charcoal production in the study area. Their socioeconomic status proved to have served significant motivation to their rising involvement in the activity. Also alternative economic activities that guarantees quick monetary rewards and is all age and gender engaging as well as requires no special skill and huge capitals for a start, should be planned for and introduced in the study area by the State Government.

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Charcoal as an Energy Resource: Global Trade, Production and Socioeconomic Practices Observed in Uganda

Cited by 53 publications

References 33 publications

Air Pollution and Climate Forcing of the Charcoal Industry in Africa

Air Pollution and Climate Forcing of the Charcoal Industry in Africa

Thermal and mechanical characteristics of local firewood species and resulting charcoal produced by slow pyrolysis

Examining the Relationship between Commercial Charcoal Production and Socioeconomic Variables in Nasarawa State, North-Central Nigeria

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