Energy Policy

Safarzynska, K., Di Domenico, L., Raberto, M., 2023. The leakage effect may undermine the circular economy efforts. Scientific Reports 13: 16677. [In this paper, we combine agent-based modelling with input-output analysis.]

Safarzynska, K., Di Domenico, L., Raberto, M., 2023. Circular economy mitigates the material rebound due to investments in renewable energy. Journal of Clean Production 402: 136753. 

Safarzynska, K., van den Bergh, J., 2022. ABM-IAM: Optimal climate policy under bounded rationality and multiple inequalities.  Environmental Research Letters 17: 094022.

Safarzynska, K, van den Bergh, J., 2018. A higher rebound effect under bounded rationality: Interactions between car mobility and electricity generation. Energy Economics. 74: 179-196.

Safarzynska, K., van den Bergh, J., 2017. Integrated climate-crisis policy. Interactions between technology, finance and energy systems. Technological Foresting and Societal Change 114: 119-137

Safarzynska, K., van den Bergh, J., 2017. Financial instability due to investing rapidly in renewable energy. Energy Policy 108: 12-20.

Safarzynska, K., 2012. Modeling the rebound effect in two manufacturing industries. Technological Forecasting and Social Change 79: 1135-1154. 

Safarzynka, K, van den Bergh, J, 2013. An evolutionary model of energy transitions with interactive innovation-selection dynamics. Journal of Evolutionary Economics 23: 271-293. 

Safarzynska, K., van den Bergh J. 2011. Industry Evolution, Rational Agents and Transition to Sustainable Electricity Production. Energy Policy 39: 6440-6452. 

Safarzynska, K., and van den Bergh, J. 2010. Demand-Supply Coevolution with Multiple Increasing Returns: Policy for System Transitions. Technological Forecasting and Social Change 77: 297 -317.