South Africa's diminishing coal reserves

South Africa's coal reserves have been significantly reduced since 2003 and a re-assessment based on the complete statistical history of production from southern Africa has indicated that the present remaining reserve for the entire subcontinent comprises only about 15 billion tonnes or gigaton...

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Main Author: Chris Hartnady
Format: Article
Language:English
Published: Academy of Science of South Africa 2010-09-01
Series:South African Journal of Science
Subjects:
Online Access:http://192.168.0.121/index.php/sajs/article/view/9919
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spelling doaj-fe1c555a2a884318afc6a546e2c825cf2021-04-06T13:38:21ZengAcademy of Science of South AfricaSouth African Journal of Science1996-74892010-09-011069/10South Africa's diminishing coal reservesChris Hartnady0Umvoto Africa (Pty) LtdSouth Africa's coal reserves have been significantly reduced since 2003 and a re-assessment based on the complete statistical history of production from southern Africa has indicated that the present remaining reserve for the entire subcontinent comprises only about 15 billion tonnes or gigatonnes (Gt). South African coal geologists should therefore be mindful of experience in Britain, where reserves were grossly overestimated by conventional techniques and remained a large multiple of future production until very shortly before the effective collapse of the industry in the 1980s. The southern African historical analysis has shown that an impressive leap in coal production occurred between 1975 and 1985, from about 69 million tonnes per year (Mt/yr) to 179 Mt/yr. By 1989, the cumulative production had reached 4 Gt. Despite this doubling since to just over 8 Gt, the underlying pattern has been one of faltering growth. Hubbertarian analysis predicts a peak in production rate of about 284 Mt/yr in 2020, at which stage approximately half (12 Gt) of the total resource (23 Gt) will be exhausted. The Waterberg Coalfield (Ellisras Basin) in South Africa may be a remaining large resource, but structural complexity, finely interbedded coal-shale strata at large depths, low grades, high ash content and water scarcity are likely to inhibit its major development. Given South Africa's heavy dependence on coal for power generation and electricity supply, an anticipated peak production in 2020 will cause problems for future economic growth.http://192.168.0.121/index.php/sajs/article/view/9919coal reservesHubbertarian analysispeak productionresource depletionenergy planning
collection DOAJ
language English
format Article
sources DOAJ
author Chris Hartnady
spellingShingle Chris Hartnady
South Africa's diminishing coal reserves
South African Journal of Science
coal reserves
Hubbertarian analysis
peak production
resource depletion
energy planning
author_facet Chris Hartnady
author_sort Chris Hartnady
title South Africa's diminishing coal reserves
title_short South Africa's diminishing coal reserves
title_full South Africa's diminishing coal reserves
title_fullStr South Africa's diminishing coal reserves
title_full_unstemmed South Africa's diminishing coal reserves
title_sort south africa's diminishing coal reserves
publisher Academy of Science of South Africa
series South African Journal of Science
issn 1996-7489
publishDate 2010-09-01
description South Africa's coal reserves have been significantly reduced since 2003 and a re-assessment based on the complete statistical history of production from southern Africa has indicated that the present remaining reserve for the entire subcontinent comprises only about 15 billion tonnes or gigatonnes (Gt). South African coal geologists should therefore be mindful of experience in Britain, where reserves were grossly overestimated by conventional techniques and remained a large multiple of future production until very shortly before the effective collapse of the industry in the 1980s. The southern African historical analysis has shown that an impressive leap in coal production occurred between 1975 and 1985, from about 69 million tonnes per year (Mt/yr) to 179 Mt/yr. By 1989, the cumulative production had reached 4 Gt. Despite this doubling since to just over 8 Gt, the underlying pattern has been one of faltering growth. Hubbertarian analysis predicts a peak in production rate of about 284 Mt/yr in 2020, at which stage approximately half (12 Gt) of the total resource (23 Gt) will be exhausted. The Waterberg Coalfield (Ellisras Basin) in South Africa may be a remaining large resource, but structural complexity, finely interbedded coal-shale strata at large depths, low grades, high ash content and water scarcity are likely to inhibit its major development. Given South Africa's heavy dependence on coal for power generation and electricity supply, an anticipated peak production in 2020 will cause problems for future economic growth.
topic coal reserves
Hubbertarian analysis
peak production
resource depletion
energy planning
url http://192.168.0.121/index.php/sajs/article/view/9919
work_keys_str_mv AT chrishartnady southafricasdiminishingcoalreserves
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