Directed Technical Change and the British Industrial Revolution
Date
2021
Authors
Stern, David
Pezzey, John
Lu, Yingying
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The University of Chicago Press
Abstract
We build a directed technical change model where one intermediate goods sector uses a fixed quantity of biomass energy ("wood") and another uses coal at a fixed price, matching stylized facts for the British Industrial Revolution. Unlike previous research, we do not assume the level or growth rate of productivity is inherently higher in the coal-using sector. Analytically, greater initial wood scarcity, initial relative knowledge of coal-using technologies, and/or population growth will boost an industrial revolution, while the converse may prevent one forever. An industrial revolution, with eventual dominance by the coal-using sector, is the model's main dynamic outcome, but not inevitable if inter-good substitutability is high enough. Empirical calibration for 1560-1900 produces historically plausible results for changes in energy-related variables during British industrialization, and through counterfactual simulations confirms that it was the growing relative scarcity of wood caused by population growth that resulted in innovation to develop coal-using machines.
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Keywords
economic growth, economic history, energy, coal, structural change
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Source
Journal of the Association of Environmental and Resource Economist
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Journal article
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Restricted until
2099-12-31
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