Utah Administrative Code (Current through November 1, 2019) |
R315. Environmental Quality, Waste Management and Radiation Control, Waste Management |
R315-264. Standards for Owners and Operators of Hazardous Waste Treatment, Storage, and Disposal Facilities |
R315-264-601. Environmental Performance Standards
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A miscellaneous unit shall be located, designed, constructed, operated, maintained, and closed in a manner that will ensure protection of human health and the environment. Permits for miscellaneous units are to contain such terms and provisions as necessary to protect human health and the environment, including, but not limited to, as appropriate, design and operating requirements, detection and monitoring requirements, and requirements for responses to releases of hazardous waste or hazardous constituents from the unit. Permit terms and provisions shall include those requirements of Sections R315-264-170 through 179, 190 through 200, 220 through 232, 250 through 259, 270 through 283, 300 through 317, 340 through 351, 1030 through 1036, 1050 through 1065, 1080 through 1090, Rule 270, Subsection R307-214-2(39), and Rule R317-7 that are appropriate for the miscellaneous unit being permitted. Protection of human health and the environment includes, but is not limited to:
(a) Prevention of any releases that may have adverse effects on human health or the environment due to migration of waste constituents in the ground water or subsurface environment, considering:
(1) The volume and physical and chemical characteristics of the waste in the unit, including its potential for migration through soil, liners, or other containing structures;
(2) The hydrologic and geologic characteristics of the unit and the surrounding area;
(3) The existing quality of ground water, including other sources of contamination and their cumulative impact on the ground water;
(4) The quantity and direction of ground-water flow;
(5) The proximity to and withdrawal rates of current and potential ground-water users;
(6) The patterns of land use in the region;
(7) The potential for deposition or migration of waste constituents into subsurface physical structures, and into the root zone of food-chain crops and other vegetation;
(8) The potential for health risks caused by human exposure to waste constituents; and
(9) The potential for damage to domestic animals, wildlife, crops, vegetation, and physical structures caused by exposure to waste constituents;
(b) Prevention of any releases that may have adverse effects on human health or the environment due to migration of waste constituents in surface water, or wetlands or on the soil surface considering:
(1) The volume and physical and chemical characteristics of the waste in the unit;
(2) The effectiveness and reliability of containing, confining, and collecting systems and structures in preventing migration;
(3) The hydrologic characteristics of the unit and the surrounding area, including the topography of the land around the unit;
(4) The patterns of precipitation in the region;
(5) The quantity, quality, and direction of ground-water flow;
(6) The proximity of the unit to surface waters;
(7) The current and potential uses of nearby surface waters and any water quality standards established for those surface waters;
(8) The existing quality of surface waters and surface soils, including other sources of contamination and their cumulative impact on surface waters and surface soils;
(9) The patterns of land use in the region;
(10) The potential for health risks caused by human exposure to waste constituents; and
(11) The potential for damage to domestic animals, wildlife, crops, vegetation, and physical structures caused by exposure to waste constituents.
(c) Prevention of any release that may have adverse effects on human health or the environment due to migration of waste constituents in the air, considering:
(1) The volume and physical and chemical characteristics of the waste in the unit, including its potential for the emission and dispersal of gases, aerosols and particulates;
(2) The effectiveness and reliability of systems and structures to reduce or prevent emissions of hazardous constituents to the air;
(3) The operating characteristics of the unit;
(4) The atmospheric, meteorologic, and topographic characteristics of the unit and the surrounding area;
(5) The existing quality of the air, including other sources of contamination and their cumulative impact on the air;
(6) The potential for health risks caused by human exposure to waste constituents; and
(7) The potential for damage to domestic animals, wildlife, crops, vegetation, and physical structures caused by exposure to waste constituents.