Engineered controls definition

Engineered controls means a containment and/or treatment systems that areis designed and constructed to prevent or limit the movement of, or the exposure to, a hazardous substances. An engineered control is a type of remedial action.23 Examples of engineered controls include:

Engineered controls means a containment ((and/or)) or treatment system((s)) that ((are)) is designed and constructed to pre- vent or limit the movement of, or the exposure to, a hazardous sub- stance((s)). An engineered control is a type of remedial action. Exam- ples of engineered controls include:

Engineered controls means containment and/or treat- ment systems that are designed and constructed to prevent or limit the movement of, or the exposure to, hazardous sub- stances. Examples of engineered controls include a layer of clean soil, asphalt or concrete paving or other materials placed over contaminated soils to limit contact with contam- ination; a groundwater flow barrier such as a bentonite slurry trench; groundwater gradient control systems such as French drains or pump and treat systems; and vapor control systems. "Environment" means any plant, animal, natural resource, surface water (including underlying sediments), groundwater, drinking water supply, land surface (including tidelands and shorelands) or subsurface strata, or ambient air within the state of Washington or under the jurisdiction of the

Examples of Engineered controls in a sentence

• Engineered controls are containment or treatment systems that prevent or limit movement of, or exposure to, contamination.

• The Provost/Vice President for Academic Affairs may, at the request of the faculty member, overrule a decision by the Committee to dismiss the grievance and instruct the Committee to accept the grievance for action.

• Engineered controls are constructed systems that require some degree of maintenance to remain effective.

• Engineered controls include measures such as spill containment, and filters for radiological effluent controls, etc., with operating criteria specified as necessary in procedures.

• Engineered controls, including physical barriers like clear plastic sneeze guards, where social distancing cannot be achieved or interaction with many customers throughout the day cannot be avoided.

• Engineered controls include aspects of the system and its installation such as fire suppression, storage system design, and fail-safes.

• Engineered controls, administrative controls, or both, shall be applied to the extent needed to reduce the likelihood of occurrence of the event so that, upon implementation of such controls, the event is highly unlikely or its consequences are less severe than those in paragrahs (b)(1)-(4) of this section.

• These will take the form of administrative controls that may use any of the following:• Title instruments;• Land use restrictions;• Engineered controls Title instruments are a prohibited locked statement of interest.

• Engineered controls consisted mostly of barriers to limit stacks of pellets and fuel rods to 4", and racks to control spacing of fuel bundles.

• The current status of site characteristics that are relevant to “Engineered Controls, Operations and Maintenance Requirements, and Emergency/Contingency Planning” include, but are not limited to, the following:• Engineered controls are identified in the appropriate CERCLA regulatory documents, including the RODs and associated O&M Plans.• O&M activities are documented in the appropriate O&M Plans.

More Definitions of Engineered controls

Engineered controls or “ECs” means any engineered controls as described in the RSRs.

Engineered controls means containment and/or treatment systems that are designed and constructed to prevent or limit the movement of, or the exposure to, hazardous substances. Exam- ples of engineered controls include a layer of clean soil, asphalt or concrete paving or other materials placed over contaminated soils to limit contact with contamination; a ground water flow barrier such as a bentonite slurry trench; ground water gradient control systems such as French drains or pump and treat systems; and vapor control sys- tems.

Engineered controls means containment and/or treatment systems that are designed and constructed to prevent or limit the movement of, or the exposure to, hazardous substances. Examples of engineered controls include a layer of clean soil, asphalt or concrete paving or other materials placed over contaminated soils to limit contact with contamination; a ground water flow barrier such as a bentonite slurry trench; ground water gradient control