Directed Technical Change and the British Industrial Revolution

Date

2021

Authors

Stern, David
Pezzey, John
Lu, Yingying

Journal Title

Journal ISSN

Volume Title

Publisher

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.

Description

Keywords

economic growth, economic history, energy, coal, structural change

Citation

Source

Journal of the Association of Environmental and Resource Economist

Type

Journal article

Book Title

Entity type

Access Statement

License Rights

Restricted until

2099-12-31

Downloads

File
Description