Energy Indicators for Sustainable Development: Guidelines and Methodologies International Atomic Energy Agency United Nations Department of Economic and Social Affairs International Energy Agency Eurostat European Environment Agency
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METHODOLOGICAL DESCRIPTION
(a) Underlying Definitions and Concepts: Water pollution from energy industries depends very much on the activity and the type of technology and abatement techniques used. Most important in this respect are the coal mining and oil extraction industries, but the use of energy in industry in general can lead to discharges of pollutants into water bodies. A range of by-products and residues are generated in energy production, including bottom ash, fluidised bed ash, fly ash and flue gas desulphurisation residues and by-products. Knowledge of the process and the pollutants likely to be generated is necessary when developing a programme for monitoring water quality. When measuring water quality, measurements can be made directly in effluent discharges or in the downstream watercourse as a measure of the environmental impact of the discharge. The following list presents typical monitoring requirements for energy industries: Flow Rate: Volume, measured in cubic metres per second, hour or day. Volumes can be multiplied by the concentration of the pollutant to calculate the mass emissions of individual pollutants. pH: This is a measure of the acidity/alkalinity of a discharge. The pH of a watercourse affects the solubility of various substances and alters the habitat for fish, animals and plants. Total Organic Carbon (TOC): Measured in milligrams per litre (this can be used as a surrogate for chemical oxygen demand [COD] or biochemical oxygen demand [BOD]). TOC measures the organic content in a discharge, which can sometimes be elevated when the discharge is contaminated. Elevated levels of organic matter change the natural balance of plants and organisms in the watercourse. Hydrocarbon Oil: Measured in milligrams per litre. Surface water drainage passing through industrial facilities and storage areas can often become contaminated with hydrocarbon oil, which can pollute watercourses and harm plants and animals 103 downstream. Contamination of fresh water with very low levels of oils makes the water undrinkable (see ENV4-2: Oil discharges into coastal waters). Suspended Solids: Measured in milligrams per litre. These can often contaminate watercourses downstream of storage areas or from mining/drilling operations. Suspended solids colour the water, change the opacity of the water and can smother plants and animals downstream. Ammoniacal and Total Nitrogen: Measured in milligrams per litre. Nitrogen is a nutrient, which often causes nutriphication of the watercourse, changing the habitat and affecting native species. Chloride and Sulphides: Measured in milligrams per litre. Wastewater from flue gas desulphurisation plants contains salts such as chloride and sulphides, which can be Yüklə 0,94 Mb. Dostları ilə paylaş:
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