Modeling stormwater storage/treatment transients: Theory
Publication
, Journal Article
Medina, MA; Huber, WC; Heaney, JP
Published in: Journal of the Environmental Engineering Division
January 1, 1981
Mathematical models are derived from the principle of conservation of mass to represent the movement, decay, storage and treatment of stormwater runoff pollutants and dry weather wastewater flows through natural and engineered transport systems. Hourly urban runoff flows and pollutant mass loadings and concentrations are generated by continuous hydrologic and water quality computer simulation models. The transient response of stormwater storage/treatment systems to variable forcing functions of flow and concentration is determined for completely mixed systems of constant and variable volumes and for one-dimensional advective systems with dispersion.
Duke Scholars
Published In
Journal of the Environmental Engineering Division
ISSN
0090-3914
Publication Date
January 1, 1981
Volume
107
Issue
4
Start / End Page
781 / 797
Citation
APA
Chicago
ICMJE
MLA
NLM
Medina, M. A., Huber, W. C., & Heaney, J. P. (1981). Modeling stormwater storage/treatment transients: Theory. Journal of the Environmental Engineering Division, 107(4), 781–797.
Medina, M. A., W. C. Huber, and J. P. Heaney. “Modeling stormwater storage/treatment transients: Theory.” Journal of the Environmental Engineering Division 107, no. 4 (January 1, 1981): 781–97.
Medina MA, Huber WC, Heaney JP. Modeling stormwater storage/treatment transients: Theory. Journal of the Environmental Engineering Division. 1981 Jan 1;107(4):781–97.
Medina, M. A., et al. “Modeling stormwater storage/treatment transients: Theory.” Journal of the Environmental Engineering Division, vol. 107, no. 4, Jan. 1981, pp. 781–97.
Medina MA, Huber WC, Heaney JP. Modeling stormwater storage/treatment transients: Theory. Journal of the Environmental Engineering Division. 1981 Jan 1;107(4):781–797.
Published In
Journal of the Environmental Engineering Division
ISSN
0090-3914
Publication Date
January 1, 1981
Volume
107
Issue
4
Start / End Page
781 / 797