Identification, transport and treatment of adhered deleterious substances of stormwater in an urban catchment thesis submitted in fulfilment of the degree of Doctor of Philosophy, Earth & Oceanic Sciences Research Institute, Auckland University of Technology, August 2004 /

Ng, Warren Heng Wan.

January 2004

Thesis (PhD) -- Auckland University of Technology, 2004. / Also held in print (142 leaves, col. ill., 30 cm.) in Wellesley Theses Collection. (T 628.21 NG)

Urban runoff Storm sewers. Water

Hydraulics of bottom rack chamber for supercritical flow diversion

Wong, Ka-chung, Colin., 黃家聰.

January 2009

published_or_final_version / Civil Engineering / Master / Master of Philosophy

Storm sewers - Mathematical models.

Hydraulics - Mathematical models.

Scatological investigations : excreta and excretion in modernity

Inglis, David

January 1998

No description available.

301

The development and application of a kinematic stormwater management model

Coleman, Trevor John

January 1990

A project report submitted to the Faculty of Engineering, University of the Witwatersrand, Johannesburg in partial fulfillment of the requirements for the degree of Master of Science in Engineering. / Urban stormwater drainage designers and planners are having to deal with the dramatic effect that urbanization has on the hydrological regime. To cope economically with the increases in runoff volumes and peaks due to urbanization, more sophisticated approaches are required for the design and planning of stormwater drainage systems. [Abbreviated abstract. Open document to view full version] / AC2017

Identification, transport and treatment of adhered deleterious substances of stormwater in an urban catchment

Ng, Warren Heng Wan

Unknown Date

This thesis develops and presents a practical, rapid and cost effective method of assessing the most efficient strategy to limit sediment and associated contaminants from entering and impacting on Auckland's waterways. Although sediment removal objectives have been defined by Auckland Regional Council's stormwater quality guidelines, the deployment of treatment systems based upon current best management practice does not ensure that these objectives will be achieved. Due to the lack of established methods for the collection and analysis of stormwater related contaminants, an elaborate sampling and analytical protocol was established to validate the results obtained. The research has been undertaken as a series of studies with specific sampling methodology described in detail at the beginning of each study. Current issues and practices relating to the local stormwater industry are also reviewed.The accumulation of metal contaminants in estuarine studies is typically considered in terms of the preferential accumulation of heavy metals in the sediment fine fraction and the accumulation of these contaminants in the bulk sediment. For these data to be considered in the context of stormwater treatment, a third factor, looking at the total mass load distribution of these contaminants within the particle ranges of sediment is introduced. This thesis proposes that a substantial amount of coarser particles are making their way into our receiving environment and that attached to them are a significant proportion of the total contaminant load. Although the contaminants on coarse particles may not be bioavailable in their original state, they undergo physical changes while in transport and once deposited the chemical and biological effects on the receiving environment will ultimately be just as detrimental.A contaminant yield assessment method is developed in which the removal efficiency of every stormwater contaminant can be accessed based on a target sediment removal range. From a cost-benefit perspective, the marginal benefit of higher contaminant removal is also discussed. Finally the framework of a contaminant-based stormwater model, incorporating provenance, nature and transport is developed to access the true nature of stormwater contamination discharged to the receiving environment. The model will generate generic particle and contaminant distributions, which may be used by policy makers to predict treatment efficiencies based on target sediment removal objectives.

Urban runoff

Storm sewers

Water pollution

Evaluation of a constructed dry swale for treatment of stormwater runoff /

Wilson, Laura R.,

January 2004

Thesis (M.S.) in Ecology and Environmental Science--University of Maine, 2004. / Includes vita. Includes bibliographical references (leaves 67-74).

Separation of a combined sewer flow

Tucker, Lawrence Scott, 1939-

January 1967

No description available.

Septic tanks.

Sewage disposal.

Combined sewers.

Investigation of deterioration models for stormwater pipe systems

Tran, Huu Dung.

January 2007

Thesis (Ph.D.)--Victoria University (Melbourne, Vic.), 2007.

Extended stormwater detention basin design for pollutant removal /

Watkins, Edwin W.,

January 1993

Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1993. / Vita. Abstract. Includes bibliographical references (leaves 110-112). Also available via the Internet.

Stormwater Management for Urban Areas

Chancellor, Gerald L.

01 January 1975

Stormwater management in urban areas is a major concern today. The problem of disposing of this stormwater runoff in a satisfactory manner is very difficult indeed. Both the quantity and quality aspects of the runoff must be dealt with to obtain a solution of this problem. The water quality of the runoff can vary depending upon the different land uses of the drainage basin. The quantity of the stormwater runoff also depends upon the land uses, the rainfall intensity and duration of the storm. The traditional methods available for determining the quantity of the stormwater runoff are numerous. These traditional methods and recently developed mathematical simulation models are discussed in this paper. Prediction of the water quality of stormwater runoff is in its infancy. Several of the mathematical models have the capabilities of quality simulation, however, the simulation results are usually inconsistent with actual quality data. Of the simulation models currently in use, the EPA Storm Water Management Model is one of the most comprehensive models. Application and verification of these newly developed models is limited. The EPA Model was chosen to simulate the quantity and quality of a small urban drainage area. The study area chosen was an urban commercial section of the Lake Eola drainage basin. Physical data of the study area, such as ground slopes, storm sewer sizes and locations and slopes were determined. This data was then utilized for simulations of actual rainfall events. Verification of the quantity and quality simulation results was performed with actual quantity and quality data obtained for these rainfall events. Quantity simulation was considered successful with good correlation between the simulated and actual runoff. Quality simulation was successful to a lesser degree, the conclusion being that further quality calibration of the Model was required. Correlation between actual and simulated stormwater quality was achieved to some extent. The lack of correlation was felt to be due to calibration of the Model.

Storm sewers

Water quality management

Engineering