Single event and continuous hydrologic modeling for sizing and evaluation of LID systems

Publikation: KonferencebidragKonferenceabstrakt til konferenceForskningfagfællebedømt

Standard

Single event and continuous hydrologic modeling for sizing and evaluation of LID systems. / Randall, Mark; Perera, N.

2016.

Publikation: KonferencebidragKonferenceabstrakt til konferenceForskningfagfællebedømt

Harvard

Randall, M & Perera, N 2016, 'Single event and continuous hydrologic modeling for sizing and evaluation of LID systems'.

APA

Randall, M., & Perera, N. (2016). Single event and continuous hydrologic modeling for sizing and evaluation of LID systems.

Vancouver

Randall M, Perera N. Single event and continuous hydrologic modeling for sizing and evaluation of LID systems. 2016.

Author

Randall, Mark ; Perera, N. / Single event and continuous hydrologic modeling for sizing and evaluation of LID systems. 10 s.

Bibtex

@conference{34a6ca08346c4c3dab128d7d479ba254,
title = "Single event and continuous hydrologic modeling for sizing and evaluation of LID systems",
abstract = "Designing and sizing Low Impact Development (LID) stormwater devices to accommodate real world events and shifting hydrologic regimes can be a challenge. There is often much uncertainty regarding how a LID system will perform over time in terms of water balance, flooding, soil moisture, and clogging. Recent improvements in hydrologic models such as SWMM have attempted to address some of these challenges. SWMM is a widely-used open source, dynamic rainfall-runoffrouting simulation model capable of simulating the physical processes occurring in the individual layers of LID controls.",
author = "Mark Randall and N. Perera",
year = "2016",
language = "English",

}

RIS

TY - ABST

T1 - Single event and continuous hydrologic modeling for sizing and evaluation of LID systems

AU - Randall, Mark

AU - Perera, N.

PY - 2016

Y1 - 2016

N2 - Designing and sizing Low Impact Development (LID) stormwater devices to accommodate real world events and shifting hydrologic regimes can be a challenge. There is often much uncertainty regarding how a LID system will perform over time in terms of water balance, flooding, soil moisture, and clogging. Recent improvements in hydrologic models such as SWMM have attempted to address some of these challenges. SWMM is a widely-used open source, dynamic rainfall-runoffrouting simulation model capable of simulating the physical processes occurring in the individual layers of LID controls.

AB - Designing and sizing Low Impact Development (LID) stormwater devices to accommodate real world events and shifting hydrologic regimes can be a challenge. There is often much uncertainty regarding how a LID system will perform over time in terms of water balance, flooding, soil moisture, and clogging. Recent improvements in hydrologic models such as SWMM have attempted to address some of these challenges. SWMM is a widely-used open source, dynamic rainfall-runoffrouting simulation model capable of simulating the physical processes occurring in the individual layers of LID controls.

M3 - Conference abstract for conference

ER -

ID: 226951040