Laboratory Evaluation of Water-Repellent Soils for Water Harvesting

Fink, Dwayne H.

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 / Reported are laboratory evaluations to screen water-repellent materials and treatments before testing them in the field. Water repellency tests were conducted on paraffin wax, a wax emulsion and silicon, lard, and a liquid dust suppressant. Six water repellency tests showed that the high rates of paraffin wax and all rates of the dust suppressant produced highly water-repellent soil surfaces. The six water repellency tests were: (1) the aqueous-alcohol drop test for determination of the 90 degree surface tension for a porous solid, (2) the water drop penetration time test, (3) the relative height of a large sessile water drop resting on the smoothed, treated soil surface, (4) and (5) the presence and persistence of air bubbles trapped between the soil-water interface, and test (6) was made to note whether the large sessile water drop from test (3) would infiltrate the soil or evaporate. Tests (3), (4), and (5) proved the most useful of the six methods for measuring water repellency. Soil type had no significant influence on degree of water repellency as measured in the laboratory by these six tests.

Hydrology -- Arizona.

Water resources development -- Arizona.

Hydrology -- Southwestern states.

Soil surfaces

Water harvesting

Water yield improvement

Materials testing

Arid climates

Rainfall-runoff relationships

Water yield

Runoff

Rainfall

Soil types

Laboratory tests

Water repellent soils

Paraffin wax

Dust suppressant

Salvaging Wasted Waters for Desert-Household Gardening

Fink, D. H., Ehrler, W. L.

15 April 1978

From the Proceedings of the 1978 Meetings of the Arizona Section - American Water Resources Assn. and the Hydrology Section - Arizona Academy of Science - April 14-15, 1978, Flagstaff, Arizona / With the objective of determining if sufficient water would be salvaged by a typical desert, urban-household from normally wasted sources associated with the lot and household to adequately irrigate a garden and orchard, a 2000 sq ft house on a typical one fifth acre lot in three cities having climates similar to Phoenix, Tucson, or Prescott, Arizona was hypothesized and the amount of water available for yard watering calculated, provided that (1) only rainfall was available, (2) rainfall-runoff from covered areas associated with or adjacent to the lot was salvaged (roof, street, alley etc.), (3) gray-water from the household was utilized, (4) a portion of the lot was waterproofed to concentrate the runoff on the untreated portion, and (5) various combinations of the above were utilized to increase the amount of available water. It is demonstrated that these sources could be used singly or in combination to obtain the required amount of water with the actual amount available depending upon the precipitation, runoff and runon areas, runoff efficiency of the contributing area, and the number of people in the household. A number of horticultural plants are suggested that should best fit such an irregular irrigation scheme.

Hydrology -- Arizona.

Water resources development -- Arizona.

Hydrology -- Southwestern states.

Wastewater disposal

Water reuse

Reclaimed water

Water conservation

Rainfall-runoff relationships

Water harvesting

Surface runoff

Surface water availability

Water supply development

Water management (Applied)

Water yield improvement

Runoff

Arid climates

Surface sealing

Irrigation techniques

Display and Manipulation of Inventory Data

Gale, R. D., Russel, J. W., Siverts, L. E.

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 / A stochastic model is presented for the prediction of sediment yield in a semi-arid watershed based on rainfall data and watershed characteristics. Random variables which lead to uncertainty in the model are rainfall amount, storm duration, runoff, and peak flow. Soil conservation service formulas are used to compute the runoff and peak flow components of the universal soil loss equation, and a transformation of random variables is used to obtain the distribution function of sediment yield from the joint distribution of rainfall amount and storm duration. Applications of the model are in the planning of reservoirs and dams where the effective lifetime of the facility may be evaluated in terms of storage capacity as well as the effects of land management of the watershed. In order to calibrate the model and to evaluate the uncertainties involved, experimental data from the Atterbury watershed near Tucson, Arizona were used.

Hydrology -- Arizona.

Water resources development -- Arizona.

Hydrology -- Southwestern states.

Sediment yield

Semi-arid climates

Soil erosion

Estimating equations

Synthetic hydrology

Rainfall-runoff relationships

Arizona

Erosion rates

Sediment discharge

Erosion

Sedimentation rates

Sediments

Sediment load

Range management

Southwest U.S.

Rainfall

Surface runoff

Rainfall-runoff relationships

Small watersheds

Streamflow

Mathematical models

Planning

Storm duration

Atterbury watershed (Tucson Ariz)

Peak flow

Universal soil loss equation