An Integrated Study of AIR Pollution PROcesses in Beijing (AIRPRO)

Lead Research Organisation: University of Leicester
Department Name: Chemistry

Abstract

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Planned Impact

Air pollution is a high profile and fully globalised phenomena with a complex web of interested parties, influencers and decision-makers and academic researcher hold a key role as highly credible influencers. The public profile of air pollution is currently very high, both in China and the UK, and this provides opportunities for potential engagement with the public on the underlying science, and also potentially with a range of other organisations, for example NGOs, for which air pollution may be one of many environmental issues of interest. We identify that as a key influencer in the field, a key focus of efforts for impact should be through engagement with decision makers, accepting that there is rarely a direct route between a new science finding and an immediate change in public policy. The timescales are long, and the evidence typically accumulative, nonetheless the PIs have a track record of successful engagement in the UK and at a European level.

This pathway to impact plan relates specifically to the UK participants in the AIRPRO consortium and we are realistic about the extent to which UK universities can expect to engage with overseas decision-makers and directly influence Chinese Government policy. In this particular case our role as an influencer and by extension our route to impact must naturally must flow via our Chinese collaborators.

We identify three specific key impact areas for AIRPRO:
[1] Public understanding of the science and impacts of urban air pollution
[2] Supporting Chinese collaborators in their role as influencers of policy and practice in Beijing and China
[3] Translating AIRPRO science to megacities in a development context

[1] Many in the consortium are active in the public engagement arena, with media appearances, high profile science events as well as school visits and production of outreach materials. This work is ongoing and enduring and we identify that the most effective role for AIRPRO is to provide new basic materials for these existing bottom up and PI- led initiates. This will be a pooled effort, with the best in new visual aids, photographs, graphics, videos, images and model animations shared on the project website and via social media mechanisms.

[2] WP7 provides a ready-made route to impact via the development and improvement of models such as NAQPMS and NICAM-Chem used in China for air pollution prediction. These leading edge models are a central mechanism by which latest science understanding is translated to operational agencies and to decision makers on policy. WP7 can therefore be thought of as being a fundamental part of the pathway to impact for the project. We have assembled a large team of leading investigators to support its delivery and this should be viewed as a substantial investment in the pathway to impact. Our Chinese collaborators provide the next steps in delivery of impact through the application of these models in their research programmes and in their advice to Government. We will also work with our Chinese partners in their engagement with local ministries and agency, through the creation of effective science summaries for specialists and targeted presentations in China for policy-makers.

[3] Many of the underlying causes of air pollution in Beijing can be found in other developing cities, and much of the science and capability developed may have potential for translation to other locations. We will specifically target overseas development agencies such as DfID and key aid and policy organisations to highlight the state of the science and how this may be used to help countries identify the most effective areas for intervention. We identify some major impact opportunities that may be developed through raising awareness of practical public health improvements afforded by engagement with air pollution issues, and strong synergies with Newton Fund objectives.

Publications

10 25 50

 
Description The rapid urbanization and industrialization of northern China in recent decades has resulted in poor air quality in major cities like Beijing. Transport of air pollution plays a key role in determining the relative influence of local emissions and regional contributions to observed air pollution. Dispersion modelling (Numerical Atmospheric Modelling Environment, NAME model) has been used with emission inventories and in situ ground measurement data to track the pathways of air masses arriving in Beijing. The percentage of time the air masses spent over specific regions during their travel to Beijing is used to assess the effects of regional meteorology on carbon monoxide (CO), a good tracer of anthropogenic emissions. The NAME model is used with the MEIC (Multi-resolution Emission Inventory for China) emission inventories to determine the amount of pollution that is transported to Beijing from the immediate surrounding areas and regions further away. This approach captures the magnitude and variability of CO over Beijing and reveals that CO is strongly driven by transport processes. This study provides a more detailed understanding of relative contributions to air pollution in Beijing under different regional airflow conditions. Approximately 45 % over a 4-year average (2013-2016) of the total CO pollution that affects Beijing is transported from other regions, and about half of this contribution comes from beyond the Hebei and Tianjin regions that immediately surround Beijing. The industrial sector is the dominant emission source from the surrounding regions and contributes over 20 % of the total CO in Beijing. Finally, using PM2.5 to determine high-pollution days, three pollution classification types of pollution were identified and used to analyse the APHH winter campaign and the 4-year period. The results can inform targeted control measures to be implemented by Beijing and the surrounding provinces to tackle air quality problems that affect Beijing and China.
Exploitation Route The results can inform targeted control measures to be implemented by Beijing and the surrounding provinces to tackle air quality problems that affect Beijing and China.
Sectors Environment

URL https://www.atmos-chem-phys.net/20/2825/2020/
 
Description Results provide practical basis for the development of AQ policy in Beijing.
First Year Of Impact 2019
Sector Environment
Impact Types Policy & public services

 
Description Incorporation into AQ policy development
Geographic Reach Local/Municipal/Regional 
Policy Influence Type Participation in a guidance/advisory committee
Impact Work incorporated into Defra Air Quality Expert Group