( August 2021) ( Learn how and when to remove this template message) Please help by spinning off or relocating any relevant information, and removing excessive detail that may be against Wikipedia's inclusion policy. Hailiang has published over 15 scientific papers and acts as peer-reviewer for three technical journals.This article may contain an excessive amount of intricate detail that may interest only a particular audience. Hailiang has working knowledge of the following modeling packages: PCSWMM, InfoWorks ICM, TUFLOW, RMA2/RMA4, CE-QUAL-W2, EFDC, Delft3D, TELEMAC-2D/3D, InfoWater, EPANET, Bentley Hammer, and has developed over 60 tools in 10 programming languages for model pre- and post-processing. He has developed techniques to couple automated model runs with optimization algorithms to enable efficient sensitivity and calibration studies. His expertise includes 1D, 2D, and 3D hydrodynamic and water quality modeling for riverine/lake systems, hydraulic modeling for stormwater, and sanitary sewer systems. He has applied modeling techniques for various hydraulic structures design analysis and environmental assessment studies.
Prior to joining CHI in 2017, Hailiang was a water resources modeling specialist with GHD.
#Cso autoselect pcswmm professional#
Hailiang is a licensed professional engineer in Ontario with over 8 years of experience and has expertise in modeling for various applications.
If you have any questions or comments, please contact our workshop coordinator.
#Cso autoselect pcswmm full#
You will receive full workshop details with the course login details, prior to the workshop. During this course you will have an opportunity to learn from a live instructor during scheduled live sessions. PCSWMM will be used throughout the workshop to speed learning and program execution, and to enhance the understanding of the underlying EPA SWMM5 processes. Participants will develop the necessary skill and confidence to explore and apply the official EPA SWMM5 hydrology/hydraulics engine effectively in a wastewater modeling capacity. Specialized tools available in PCSWMM will be introduced that streamline the building of common wastewater model components including establishing time patterns and estimating wastewater generation rate based on land use, sewershed population, water meter readings/billing (water consumption) or peaking factors. Emphasis will be put on the characterization of dry weather flow contributions from urban sources, rainfall dependant inflow, and infiltration and groundwater inflow. This workshop will present strategies for developing, calibrating and inferring results from a wastewater model. Although the set-up of a wastewater model is similar to a stormwater model, there are several additional considerations (including force mains) necessary for the development of a reliable SWMM5 wastewater model. Wastewater flows resulting from urban and industrial processes include sanitary flows, groundwater interactions, rainfall dependent inflow and infiltration, and in the case of combined systems, stormwater. Wastewater models are commonly used for optimizing hydraulic performance, managing operations and maintenance, and minimizing or preventing combined sewer overflows (CSO) and sanitary sewer overflows (SSO).