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Effluent disposal and the physical environment

Published online by Cambridge University Press:  05 December 2011

J. C. Curran
J. C. Curran
Affiliation:
Clyde River Purification Board, Rivers House, East Kilbride, Glasgow G75 OLA, Scotland
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Synopsis

A review is given of some of the hydrodynamic features of the Clyde Estuary and examples are used to emphasise their relevance to an understanding of the effect of pollution on water quality. Computer modelling of the estuary and its role in pollution management are briefly described.

Reference is made to the oceanographic survey methods regularly employed in the Firth of Clyde and examples provided of the results and their application to pollution studies. The potential for computer modelling of coastal waters is stressed.

Type
Research Article
Information
Proceedings of the Royal Society of Edinburgh, Section B: Biological Sciences , Volume 90: The Environment of the Estuary and Firth of Clyde , 1986 , pp. 97 - 115
Copyright
Copyright © Royal Society of Edinburgh 1986

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References

Agg, A. R. 1978. Investigations of sewage discharges to some British coastal waters. Water Research Centre, Technical Report 99.Google Scholar
Alabaster, J. S., Shurben, D. G. & Mallett, M. J. 1979. The survival of smolts of salmon Salmo salar L. at low concentrations of dissolved oxygen. Journal of Fish Biology 15, 18.CrossRefGoogle Scholar
Bartlett, R. E. 1970. Sewerage—Public Health Engineering—Design in Metric. London: Elsevier Publishing.Google Scholar
Bowden, K. F. 1967. Circulation and diffusion. In Estuaries, ed. Lauff, G. H. Washington D.C.: American Association for the Advancement of Science, Pub. 83.Google Scholar
Bowden, K. F., Krauel, D. P. & Lewis, R. E. 1974. Some features of turbulent diffusion from a continuous source at sea. Advances in Geophysics 18A, 315329.Google Scholar
Brooks, N. H. 1960. Diffusion of sewage effluent in an ocean current. In Waste Disposal in the Marine Environment, ed. Pearson, E. A., pp. 246267. Oxford: Pergamon Press.Google Scholar
Charlton, J. A. 1980. The tidal circulation and flushing capability of the outer Tay Estuary. Proceedings of the Royal Society of Edinburgh 78B, 33—46.Google Scholar
Clough, G. F. G. & Cannon, D. E. 1981. Principles of economic comparisons. In Coastal Discharges—engineering aspects and experience, pp. 165172. London: Institute of Civil Engineers.Google Scholar
Clyde River Purification Board 1978. Topographic, Hydrographic and Loading Data for the Clyde Estuary. Technical Report No. 48. East Kilbride: CRPB.Google Scholar
Collar, R. H. F. 1978. Estuary circulation: assessment and application. Proceedings of the Royal Society of Edinburgh 76B, 3754.Google Scholar
Council of the European Communities 1976. Council directive concerning the quality of bathing waters. Official Journal of the European Community No. L31, 1–7.Google Scholar
Csanady, G. T. 1963. Turbulent diffusion in Lake Huron. Journal of Fluid Mechanics 17, 360384.CrossRefGoogle Scholar
Curran, J. C. 1981. A finite-element model of pollution in the Clyde Estuary: formulation, validation and utilisation. Applied Mathematical Modelling 5, 137142.CrossRefGoogle Scholar
Curran, J. C. 1984. Comments. Water Research 18, 921923.Google Scholar
Curran, J. C. & Milne, D. P. 1985. Development of a model of bacterial pollution in the Clyde Estuary. In Estuarine Management & Quality Assessment, eds. Wilson, J. G. & Halcrow, W. New York: Plenum Press.Google Scholar
Department of Scientific and Industrial Research 1964. Effects of polluting discharges on the Thames Estuary. Water Pollution Research Technical paper 11. London: HMSO.Google Scholar
Edwards, A. & Edelsten, D. 1976. Marine fish cages—the physical environment. Proceedings of the Royal Society of Edinburgh 75B, 207221.Google Scholar
Fischer, H. B., List, E. J., Koh, R. C., Imberger, J. & Brooks, N. H. 1979. Mixing in Inland and Coastal Waters. New York: Academic Press.Google Scholar
Greer, W. T. 1981. The design and construction of Shieldhall sewage treatment works, Glasgow. Water Pollution control 80, 260272.Google Scholar
HMSO. 1972. Royal Commission of Environmental Pollution, 3rd Report. London: HMSO.Google Scholar
Hansen, D. V. & Rattray, M. 1966. New dimensions in estuary classification. Limnology and Oceanography 11, 319326.CrossRefGoogle Scholar
Hugman, S. J., O'Donnell, A. G. & Mance, G. 1984. A survey of estuarine oxygen concentrations in relation to the passage of migratory salmonids. Water Research Centre Report 745-M.Google Scholar
Inman, D. L. 1949. Sorting of sediments in the light of fluid mechanics. Journal of Sedimentary Petrology 19, 5170.Google Scholar
Kato, H. & Phillips, O. M. 1969. On the penetration of a turbulent layer into a stratified fluid. Journal of Fluid Mechanics 17, 643655.CrossRefGoogle Scholar
Kendall., M. G. 1973. Time Series. London: Griffin Ltd.Google Scholar
Kullenberg, G. 1974. Investigations on dispersion in stratified vertical shear flow. Rapport et procèsverbaux des réunions. Conseil permanent international pour l'exploration de la mer 167, 8692.Google Scholar
Lass, H. U. 1974. Relation between advective & turbulent components of the total transport in the nearshore zone of a non-tidal sea. Rapport et procès-verbaux des réunions. Conseil permanent international pour l'exploration de la mer 167, 4648.Google Scholar
Mackay, D. W. & Gilligan, J. 1972. The relative importance of freshwater input, temperature and tidal range in determining levels of dissolved oxygen in a polluted estuary. Water Research 6, 183190.CrossRefGoogle Scholar
Mackay, D. W. & Leatherland, T. M. 1976. Chemical processes in an estuary receiving major inputs of industrial and domestic wastes. In Estuarine Chemistry, eds. Burton, J. D. & Liss, P. S. London: Academic Press.Google Scholar
Mitchell, R. & Chamberlin, C. 1975. Factors influencing the survival of enteric microorganisms in the sea: an overview. In Discharge of Sewage from Sea Outfalls, ed. Gameson, A. L. H., pp. 237251. Oxford: Pergamon Press.Google Scholar
Newton, J. R. 1973. Factors affecting slick formation at marine sewage outfalls. In Pollution Criteria for Estuaries. London: Pentech Press.Google Scholar
Okubo, A. 1970. Horizontal dispersion of floatable particles in the vicinity of velocity singularities such as convergences. Deep-Sea Research 17, 445454.Google Scholar
Okubo, A. 1974. Some speculations on oceanic diffusion diagrams. Rapport et procès-verbaux des réunions. Conseil permanent international pour l'exploration de la mer 167, 7785.Google Scholar
Okubo, A. & Ebbesmeyer., C. C. 1976. Determination of vorticity, divergence and deformation rates from analysis of drogue observations. Deep-Sea Research 23, 349352.Google Scholar
Ozmidov, R. V., Le Quang, Toi & Muravjev, S. S. 1974. Experimental data on sea diffusion in the presence of current shear. Rapport et procès-verbaux des réunions. Conseil permanent international pour l'exploration de la mer 167, 143145.Google Scholar
Postma, H. 1967. Sediment transport and sedimentation in the estuarine environment. In Estuaries, ed. Lauff, G. H. Washington, D.C.: American Association for the Advancement of Science, Pub. 83.Google Scholar
Saucier, W. J. 1953. Horizontal deformation in atmospheric motion. Transactions of the American Geophysics Union 34, 709719.Google Scholar
Surveyor 1984. Special feature. Strathclyde puts £13m into Irvine Valley sewerage. Issue 8 November, 1984, 10–15.Google Scholar
Talbot, J. W. & Talbot, G. A. 1974. Diffusion in shallow seas and in English coastal and estuarine waters. Rapport et procès-verbaux des réunions. Conseil permanent international pour l'exploration de la mer 167, 93110.Google Scholar
Thomson, A. 1969. A hydraulic investigation of the Clyde Estuary. Ph.D. Thesis, University of Strathclyde, Glasgow.Google Scholar
White, S. J. 1970. Plane bed thresholds of fine grained sediments. Nature 228, 152153.Google Scholar