Effect of a Grass and Soil Filter on Tucson Urban Runoff: A Preliminary Evaluation

Popkin, Barney Paul

06 May 1972

From the Proceedings of the 1972 Meetings of the Arizona Section - American Water Resources Assn. and the Hydrology Section - Arizona Academy of Science - May 5-6, 1972, Prescott, Arizona / Storm runoff from the Tucson metropolitan area is unsuitable for most uses without processing. A lysimeter comprised of a grass and soil filter was constructed and is being evaluated as a water-quality treatment facility. The lysimeter is 200 feet long, 4 feet wide and 5 feet deep, and contains homogeneous calcareous loam covered by common grasses. Experimental apparatus was installed to divert less than a cubic foot per second of runoff from urbanized Arcadia Watershed. Runoff flows by gravity over the lysimeter, where surface inflow, surface outflow and subsurface outflow are measured and sampled. Four trials, each associated with a discrete runoff event, were conducted in the fall of 1971. Water samples were analyzed for inorganic chemical constituents, chemical oxygen demand (COD), coliforms, turbidity and sediment contents. Subsurface-outflow samples from initial trials were high in COD and total dissolved solids, representing soil flushing or leaching. Concentrations of inorganics reached a maximum value within a few hours of initial seepage, and then decreased. The peaking represents a salt build-up between trials. Concentrations of COD, coliforms, turbidity and sediment in subsurface-outflow samples decreased significantly during each trial. Surface-outflow samples had lower turbidity, COD, bacteria and sediment contents than surface-inflow samples. Turbidity, suspended and volatile solids, coliforms and COD in runoff samples may be reduced by grass and soil filtration. Increased grass development and soil settling work to produce a better quality effluent. Quantification of the lysimeter's effectiveness will be useful for urban watershed management.

Hydrology -- Arizona.

Water resources development -- Arizona.

Hydrology -- Southwestern states.

Grasses

Soils

Urban runoff

Water quality control

Treatment

Storm runoff

Lysimeters

Loam

Water sampling

Inorganic compounds

Chemical oxygen demand

Coliforms

Turbidity

Sediments

Leaching

Watershed management

Arizona

Arid lands

A Rational Water Policy for Desert Cities

Matlock, W. G.

20 April 1974

From the Proceedings of the 1974 Meetings of the Arizona Section - American Water Resources Assn. and the Hydrology Section - Arizona Academy of Science - April 19-20, 1974, Flagstaff, Arizona / Four sources of water supply for desert cities are rainfall, runoff, groundwater, and imported water, and the potential use for each varies. The government can institute various policy changes to eliminate or reduce the imbalance between water supply and demand. Restrictions should be placed on water-use luxuries such as swimming pools, subdivision lakes, fountains, etc. Water pricing should be progressive; each unit of increased use above a reasonable minimum should be charged for at an increasing rate. Runoff from individual properties, homes, storage, and supermarkets should be minimized through the use of onsite recharge wells, and various collection methods should be initiated. A campaign to acquaint the general public with a new water policy must be inaugurated.

Hydrology -- Arizona.

Water resources development -- Arizona.

Hydrology -- Southwestern states.

Arid lands

Water shortage

Water supply

Water policy

Water conservation

Regulation

Water resources

Governments

Planning

Water allocation (policy)

Water utilization

Rainfall

Runoff

Groundwater

Water wells

Groundwater recharge

Groundwater availability

Imported water

Water demand

Water rates

Urban runoff

Arizona

Desert cities

Tucson (Ariz)

A Preliminary Investigation of Treating Metal Pollutants in Water by Slow-Release Hydrogen Peroxide

Shaw, Caitlin H.

19 September 2017

No description available.

Analytical Chemistry

Aquatic Sciences

Aquaculture

Area Planning and Development

Chemical Engineering

Chemistry

Environmental Geology

Environmental Science

Environmental Studies

Experiments

Geology

Hydrology

Hydrologic Sciences

Organic Chemistry

Slow release

oxidation

stormwater

urban runoff

fentons

stormwater treatment

iron

manganese

zinc

cadmium

copper

lead

metal pollutants

treatment by oxidation

pH

Hydrogen peroxide

The feasibility of rainwater and stormwater harvesting within a winter rainfall climate context: a commercial building focus

Viljoen, Nina Susara

18 November 2014

Cape Town, South Africa, falls within a winter rainfall region, making it difficult to assess the feasibility of rain- and stormwater harvesting. The reason for this is because the region’s high water demand period coincides with the low rainfall summer season, thereby limiting the availability of this alternative water resource when most needed. During this study, rainwater harvesting for toilet flushing purposes, collected from roof surfaces, was practically assessed by means of inserted flow meters at a pilot study site in Kommetjie, Cape Town. The combined and single system roof- and land surface runoff yields and savings of commercial buildings within the Kommetjie business area, were also theoretically assessed by making use of a mathematical roof- and land surface runoff model specifically developed during this study. The statistical testing of the hypotheses statements relating to the pre- and post-harvesting savings at the pilot study building, compared against the average actual municipal water usage, were performed. Hypotheses testing were also performed in order to compare the theoretical rain- and stormwater runoff yields for the commercial business area against the average actual municipal water consumption. The conclusions drawn from this study indicated that valuable potable water, as well as related financial savings, can be achieved within a winter rainfall region, thereby making rain- and stormwater harvesting a feasible option for commercial businesses in Cape Town. / Environmental Sciences / M.Sc. (Environmental Management)

Below-surface reservoir

Catchment surface

Collection tank

Electronic rain gauge

Garden irrigation

Measurement

Non-potable uses

Potable top-up system

Rainwater harvesting

Runoff model

Stormwater channelling

Stormwater harvesting

Stormwater runoff

Toilet demand

Toilet flushing

333.91230968735

The feasibility of rainwater and stormwater harvesting within a winter rainfall climate context: a commercial building focus

Viljoen, Nina Susara

18 November 2014

Cape Town, South Africa, falls within a winter rainfall region, making it difficult to assess the feasibility of rain- and stormwater harvesting. The reason for this is because the region’s high water demand period coincides with the low rainfall summer season, thereby limiting the availability of this alternative water resource when most needed. During this study, rainwater harvesting for toilet flushing purposes, collected from roof surfaces, was practically assessed by means of inserted flow meters at a pilot study site in Kommetjie, Cape Town. The combined and single system roof- and land surface runoff yields and savings of commercial buildings within the Kommetjie business area, were also theoretically assessed by making use of a mathematical roof- and land surface runoff model specifically developed during this study. The statistical testing of the hypotheses statements relating to the pre- and post-harvesting savings at the pilot study building, compared against the average actual municipal water usage, were performed. Hypotheses testing were also performed in order to compare the theoretical rain- and stormwater runoff yields for the commercial business area against the average actual municipal water consumption. The conclusions drawn from this study indicated that valuable potable water, as well as related financial savings, can be achieved within a winter rainfall region, thereby making rain- and stormwater harvesting a feasible option for commercial businesses in Cape Town. / Environmental Sciences / M.Sc. (Environmental Management)

Below-surface reservoir

Catchment surface

Collection tank

Electronic rain gauge

Garden irrigation

Measurement

Non-potable uses

Potable top-up system

Rainwater harvesting

Runoff model

Stormwater channelling

Stormwater harvesting

Stormwater runoff

Toilet demand

Toilet flushing

333.91230968735