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Towards a political economy framework for wind power: Does China break the mould?

We propose a general taxonomy of the political economy challenges to wind power development and integration, highlighting the implications in terms of actors, interests, and risks. Applying this framework to three functions in China’s electricity sector—planning and project approval, generator cost recovery, and balancing area coordination—we find evidence of challenges common across countries with significant wind investments, despite institutional and industry characteristics that are unique to China.

We argue that resolving these political economy challenges is as important to facilitating the role of wind and other renewable energies in a low carbon energy transition as providing dedicated technical and policy support. China is no exception.

Recent reports from the Intergovernmental Panel on Climate Change (IPCC) and the International Energy Agency (IEA) suggest that carbon capture and storage (CCS) could be a cost-effective strategy to reduce greenhouse gas (GHG) emissions associated with climate change, particularly in the power sector. But CCS will only be a viable option if there’s sufficient capacity throughout the world to store carbon dioxide (CO2) underground.

Assessing the viability of a key climate mitigation technology
Uncertainty in counting ice nucleating particles with continuous flow diffusion chambers

This study investigates the measurement of ice nucleating particle (INP) concentrations and sizing of crystals using continuous flow diffusion chambers (CFDCs). CFDCs have been deployed for decades to measure the formation of INPs under controlled humidity and temperature conditions in laboratory studies and by ambient aerosol populations. These measurements have, in turn, been used to construct parameterizations for use in models by relating the formation of ice crystals to state variables such as temperature and humidity as well as aerosol particle properties such as composition and number. We show here that assumptions of ideal instrument behavior are not supported by measurements made with a commercially available CFDC, the SPectrometer for Ice Nucleation (SPIN), and the instrument on which it is based, the Zurich Ice Nucleation Chamber (ZINC). Non-ideal instrument behavior, which is likely inherent to varying degrees in all CFDCs, is caused by exposure of particles to different humidities and/or temperatures than predicated from instrument theory of operation. This can result in a systematic, and variable, underestimation of reported INP concentrations. We find here variable correction factors from 1.5 to 9.5, consistent with previous literature values. We use a machine learning approach to show that non-ideality is most likely due to small-scale flow features where the aerosols are combined with sheath flows. Machine learning is also used to minimize the uncertainty in measured INP concentrations. We suggest that detailed measurement, on an instrument-by-instrument basis, be performed to characterize this uncertainty.

Join MIT Joint Program Co-Director John Reilly for two exciting HUBweek events where he will serve as an expert and panelist: (1) Deep Dive: Open Innovation on Climate Change - Brainstorm and advance promising, high-impact solutions to climate change with experts and others; and (2) Future Forum: A Rising Tide - Panel on preparing for the threat of rising sea levels caused by climate change.

John Reilly to share expertise on climate change at HUBweek

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