Title | The MINNI Project: An integrated assessment modeling system for policy making |
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Publication Type | Presentazione a Congresso |
Year of Publication | 2005 |
Authors | Zanini, Gabriele, Pignatelli T., Monforti F., Vialetto G., Vitali Lina, Brusasca G., Calori G., Finardi S., Radice P., and Silibello C. |
Conference Name | MODSIM05 - International Congress on Modelling and Simulation: Advances and Applications for Management and Decision Making, Proceedings |
Conference Location | Melbourne, VIC |
Keywords | Abatement technologies, Air pollution, Atmospheric chemistry, Atmospheric modeling systems, Atmospheric movements, atmospheric pollution, Atmospheric process, atmospheric transport, Automatic teller machines, Chemical reactions, Chemical transformations, Climate change, decision making, Emission scenario, Emission vectors, EnvironmentalPolicies, Eulerian, Fine resolution, Impact assessments, Integrated assessment, Integrated assessment models, Integration, Internet protocols, Main component, Modeling systems, Multiphase chemical model, Policy makers, policy making, Pollution dynamics, Potential applications, Rain, Rating, spatial resolution, Sulfur dioxide, Transfer matrix method, Transfer matrixes, Two-component |
Abstract | In 2002, the Italian Ministry of the Environment decided to sponsor the project presented by ENEA for the development of the national Integrated Assessment Modeling system (the MINNI Project ). The objective of the project is to support the policy makers in the elaboration and assessment of air pollution policies at international, national and local level, by means of the more recent understandings of atmospheric processes. The MINNI Project consists of two main components (Figure 1). A multi pollutant eulerian Atmospheric Modeling System (AMS) simulating air pollution dynamics and multiphase chemical transformations, providing hourly concentrations and annual depositions of SO 2, NOx, NH 3, PM 10 , PM 2.5 and O 3, with a spatial resolution ranging between 400 and 4 km 2. AMS provides RAINS Italy with the Atmospheric Transfer Matrices (ATM) or "area to grid" transfer matrices. The RAINS-Italy Integrated Assessment Model, developed within a joint research project ENEAIIASA, inheriting all the features of the RAINSEurope model, but comprising the atmospheric transport and chemical transformations, as calculated by AMS, in the ATM. Rains-Italy provides emission scenarios for the mentioned pollutants (plus VOC), as well as estimations of costs associated with the implementation of the abatement technologies and impact assessment. The two components complement each other, offering a powerful tool which allows to provide the policy makers with detailed analyses, where requested, tailored on the specific national or local needs. AMS may feed RAINS-Italy with fine resolution ATMs and/or different meteorological year based ATMs. RAINS-Italy may feed AMS with a projected emission vector, regarding future scenarios, to develop expected detailed deposition/concentration maps. Eloquent examples are given, about the flexibility and the potential applications of the whole system as scientific underpinning support to the policy makers. (Figure Presented). |
URL | https://www.scopus.com/inward/record.uri?eid=2-s2.0-80053103660&partnerID=40&md5=0fa0e6749509eb5790a5a0688dfb70da |
Citation Key | Zanini20052005 |