Skip to content Skip to navigation

Designing an Optimal 'Tech Fix' Path to Global Climate Stability: R&D in a Multi-Phase Climate Policy Framework

Feb 2013
Working Paper
12-013
By  Paul A. David, Adriaan van Zon

NOTE: See SIEPR Discussion Paper [12-029, 7/172013] for the extensively revised, expanded and slightly re-titled version that supplants this paper. The research reported here gives priority to understanding the inter-temporal resource allocation requirements of a program of technological changes that could halt global warming by completing the transition to a “green” (zero net CO2-emission) production regime within the possibly brief finite interval that remains before Earth’s climate is driven beyond a catastrophic tipping point. This paper formulates a multi-phase, just-in-time transition model incorporating carbon-based and carbon-free technical options requiring physical embodiment in durable production facilities, and having performance attributes that are amenable to enhancement by directed R&D expenditures. Transition paths that indicate the best ordering and durations of the phases in which intangible and tangible capital formation is taking place, and capital stocks of different types are being utilized in production, or scrapped when replaced types embodying socially more efficient technologies, are obtained from optimizing solutions for each of a trio of related models that couple the global macro-economy’s dynamics with the dynamics of the climate system. They describe the flows of consumption, CO2 emissions and the changing atmospheric concentration of green-house gas (which drives global warming), along with the investment dynamics required for the timely transformation of the production regime. These paths are found as the welfare-optimizing solutions of three different “stacked Hamiltonians”, each corresponding to one of our trio of integrated endogenous growth models that have been calibrated comparably to emulate the basic global setting for the “transition planning” framework of dynamic integrated requirements analysis modeling (DIRAM). (to view remaining abstract, click Full Text link below)

Publication Keywords: 
paul david
paul a. david