TY - GEN
T1 - Greenhouse gas emissions from integrated urban drainage systems: where do we stand?
AU - Mannina, Giorgio
PY - 2017
Y1 - 2017
N2 - Integrated urban drainage systems (IUDS) (i.e., sewer systems, wastewater treatment plants and receiving water bodies) contribute to climate change being sources of greenhouse gas emissions (GHG). This paper, produced by the International Working Group on Data and Models, which works under the IWA/IAHR Joint Committee on Urban Drainage, reviews the state-of-the-art and the recently developed modelling tools used to understand and manage GHG emissions from IUDS. Further, open problems and research gaps are discussed, while proposing a framework for handling GHG from IUDS. The literature review reveals that there is a need to strengthen and partially adequate already available mathematical models for IUDS to take GHG into account.
AB - Integrated urban drainage systems (IUDS) (i.e., sewer systems, wastewater treatment plants and receiving water bodies) contribute to climate change being sources of greenhouse gas emissions (GHG). This paper, produced by the International Working Group on Data and Models, which works under the IWA/IAHR Joint Committee on Urban Drainage, reviews the state-of-the-art and the recently developed modelling tools used to understand and manage GHG emissions from IUDS. Further, open problems and research gaps are discussed, while proposing a framework for handling GHG from IUDS. The literature review reveals that there is a need to strengthen and partially adequate already available mathematical models for IUDS to take GHG into account.
KW - Integrated urban drainage modelling
KW - mathematical modelling
KW - water quality
KW - Integrated urban drainage modelling
KW - mathematical modelling
KW - water quality
UR - http://hdl.handle.net/10447/247980
M3 - Conference contribution
SP - 1
EP - 10
BT - 14th International Conference on Urban Drainage (ICUD) Prague, Czech Republic, Sep. 10 -15, 2017
ER -