ASTM D3404 Standard Guide for Measuring Matric Potential in Vadose Zone Using Tensiometers
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- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
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- ASTM D7204 Standard Practice for Sampling Waste Streams on Conveyors
- ASTM D5680 Standard Practice for Sampling Unconsolidated Solids in Drums or Similar Containers
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- ASTM D7204 Standard Practice for Sampling Waste Streams on Conveyors
- ASTM D5680 Standard Practice for Sampling Unconsolidated Solids in Drums or Similar Containers
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- ASTM D7204 Standard Practice for Sampling Waste Streams on Conveyors
- ASTM D5680 Standard Practice for Sampling Unconsolidated Solids in Drums or Similar Containers
- ASTM D7204 Standard Practice for Sampling Waste Streams on Conveyors
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- Картотека зарубежных и международных стандартов
ASTM International
Standard Guide for Measuring Matric Potential in Vadose Zone Using Tensiometers
N D3404
Annotation
This guide covers the measurement of matric potential in the vadose zone using tensiometers. The theoretical and practical considerations pertaining to successful onsite use of commercial and fabricated tensiometers are described. Measurement theory and onsite objectives are used to develop guidelines for tensiometer selection, installation, and operation.
Units—The values stated in SI units are to be regarded as the standard.
This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use. The use of a mercury manometer has inherent safety concerns regarding the handling of and potential exposure to mercury. Mercury metal vapor poisoning has long been recognized as a hazard. When using equipment containing or requiring the use of mercury, take all precautions and care to avoid the escape of mercury vapor or the spillage of mercury. Maximum limits for mercury concentrations in industrial atmospheres are set by governmental agencies. These limits are usually based upon recommendations made by the American Conference of Governmental Industrial Hygienists*. It is possible for the concentration of mercury vapors accompanying spills from broken thermometers, barometers, and other instruments using mercury to exceed these limits. Mercury, being a heavy liquid with high surface tension, readily disperses into small droplets after spills, lodging in cracks and crevices. Resultant increased surface area of the mercury due to this dispersion promotes higher mercury concentrations in the surrounding air. Mercury vapor concentrations are readily measured using commercially available instrumentation. To monitor environmental hazards it is advisable to make periodic checks for mercury content at locations where mercury is exposed to the atmosphere. Use a spill kit for clean-up whenever spillage occurs. After spills and clean-up, make thorough checks for mercury vapor concentrations in the atmosphere. *In 1993, this Conference had headquarters located in Building D-7 at 6500 Glenway Drive, Cincinnati, Ohio 45211.
