A dynamic model of recycling with endogenous technological breakthrough

Résumé

We develop a growth model in which the use of a non-renewable resource yields waste. Recycling waste produces materials of poor quality. These materials can be reused for production only once a dedicated R&D activity has made their quality reach an exogenous minimum threshold. The economy then switches to a fully recycling regime. We refer to this switch as the technological breakthrough. We analyze the optimal trajectories of the economy and present the Ramsey-Keynes and Hotelling conditions in this context. We characterize the determinants of the date of the breakthrough, which is endogenous, as well as the discontinuity in the variables’ paths that is induced by this breakthrough. We show, in particular, that the availability of a recycling technology leads to a more intense exploitation of the resource and possibly to lower levels of consumption before the breakthrough.

Mots-clés

Recycling; Non-renewable resource; Technical change; Growth;

Codes JEL

C61: Optimization Techniques • Programming Models • Dynamic Analysis
O44: Environment and Growth
Q32: Exhaustible Resources and Economic Development
Q53: Air Pollution • Water Pollution • Noise • Hazardous Waste • Solid Waste • Recycling