Particle-Size-Distribution of Nevada Test Site Soils | |
Spriggs, G ; Ray-Maitra, A | |
关键词: BULK DENSITY; CLAYS; DISTRIBUTION; EXPLOSIONS; FALLOUT; LAWRENCE LIVERMORE NATIONAL LABORATORY; NEVADA TEST SITE; NUCLEAR WEAPONS; NUTRIENTS; PARTICLE SIZE; SAFETY; SAND; SILT; SOILS; TEXTURE; WATE; | |
DOI : 10.2172/922100 RP-ID : UCRL-TR-234937 PID : OSTI ID: 922100 Others : TRN: US200806%%192 |
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美国|英语 | |
来源: SciTech Connect | |
【 摘 要 】
The amount of each size particle in a given soil is called the particle-size distribution (PSD), and the way it feels to the touch is called the soil texture. Sand, silt, and clay are the three particle sizes of mineral material found in soils. Sand is the largest sized particle and it feels gritty; silt is medium sized and it feels floury; and clay is the smallest and if feels sticky. Knowing the particle-size distribution of a soil sample helps to understand many soil properties such as how much water, heat, and nutrients the soil will hold, how fast water and heat will move through the soil, and what kind of structure, bulk density and consistence the soil will have. Furthermore, the native particle-size distribution of the soil in the vicinity of ground zero of a nuclear detonation plays a major role in nuclear fallout. For soils that have a high-sand content, the near-range fallout will be relatively high and the far-range fallout will be relatively light. Whereas, for soils that have a high-silt and high-clay content, the near-range fallout will be significantly lower and the far-range fallout will be significantly higher. As part of a program funded by the Defense Threat Reduction Agency (DTRA), the Lawrence Livermore National Laboratory (LLNL) has recently measured the PSDs from the various major areas at the Nevada Test Site where atmospheric detonations and/or nuclear weapon safety tests were performed back in the 50s and 60s. The purpose of this report is to document those results.
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RO201705190000917LZ | 1056KB | download |