The GAINS model (Greenhouse gas-Air pollution Interactions and Synergies) model
Integrated assessment of cost-effective control strategies
Objective
GAINS explores cost-effective multi-pollutant emission control strategies that meet environmental objectives on air quality impacts (on human health and ecosystems) and greenhouse gases.
Model characteristics
The GAINS model is an integrated assessment model that brings together information on the sources and impacts of air pollutant and greenhouse gas emissions and their interactions. GAINS is an extension of the earlier RAINS (Regional Air Pollution Information and Simulation) model, which addressed air pollution aspects only. GAINS brings together data on economic development, the structure, control potential and costs of emission sources, the formation and dispersion of pollutants in the atmosphere and an assessment of environmental impacts of pollution. GAINS addresses air pollution impacts on human health from fine particulate matter and ground-level ozone, vegetation damage caused by ground-level ozone, the acidification of terrestrial and aquatic ecosystems and excess nitrogen deposition) of soils, in addition to the mitigation of greenhouse gas emissions. GAINS describes the interrelations between these multiple effects and the range of pollutants (SO2, NOx, PM, NMVOC, NH3, CO2, CH4, N2O, F-gases) that contribute to these effects at the European scale.
Typical features and results
GAINS assesses, for each of the 43 countries in Europe, more than 1000 measures to control the emissions to the atmosphere. It computes the atmospheric dispersion of pollutants and analyzes the costs and environmental impacts of pollution control strategies. In its optimization mode, GAINS identifies the least-cost balance of emission control measures across pollutants, economic sectors and countries that meet user-specified air quality and climate targets.
Data sources
- Energy balances and agricultural statistics from EUROSTAT
- National emission inventories from EMEP and from national sources
Input from other EC4MACS models
- Projections of energy consumption (from the PRIMES model)
- Projections of agricultural activities (from the CAPRI model)
- Details on the structural changes in the transport sector (from the TREMOVE model)
- Characteristics of the dispersion of pollutants in the atmosphere (from the EMEP model)
- Estimates of the sensitivity of ecosystems towards deposition of acidifying and nitrogen compounds (from the CCE IMPACT database)
Output to other EC4MACS models
- Costs of emission control measures (to the GEM-E3 model)
- Physical impacts of air pollution control on human health and ecosystems (to the BENEFIT model)
Documentation
A detailed description of the GAINS model can be found in Amann et al. (2011) and http://www.iiasa.ac.at/rains/review.html.
Developed by
International Institute for Applied Systems Analysis (IIASA)