Optimization of the biological treatment of TPH-contaminated soils in biopiles

机译：生物堆中TPH污染土壤的生物处理的优化

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The rate of total petroleum hydrocarbons (TPH) degradation in biopile soils undergoing biological treatment is substantially influenced by the availability of oxygen in the biopiles. Passive aeration (diffusion through the surface of the piles) can only provide sufficient oxygen in depths of less than 2 meters within economical treatment periods (up to 1 year). For biopiles with heights of up to 5 meters (which are more economical due to lower space requirements), active aeration systems are necessary. In biopiles iwth heights of 3.2 meters, sufficient aeration systems are necessary. In biopiles with hieghts of 3.2 meters, sufficient oxygen could be provided with an oxygen-controlled, discontinuous, high-pressure aeration system. A continuous TPH reduction could be achieved with this system. Lab-scale investigations carried out simulataneously showed that less than 5

机译：经过生物处理的生物堆土壤中总石油烃（TPH）的降解速度很大程度上受到生物堆中氧气供应的影响。被动曝气（通过堆表面的扩散）只能在经济的处理期内（长达1年）内提供小于2米深度的足够氧气。对于高度不超过5米的生物堆（由于空间需求较低而更为经济），必须使用主动曝气系统。在高度为3.2米的生物堆中，必须有足够的通风系统。在高3.2米的生物堆中，可以通过氧气控制的，不连续的高压曝气系统提供足够的氧气。使用该系统可以连续降低TPH。同时进行的实验室规模调查显示，少于5

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《International in situ and on-site bioremediation symposium》|1999年|p.43-50|共8页
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M.Koning; J.Braukmeier; J.-C.Luth; S.Ruiz-Saucedo; R.Stegmann; N.Viebranz; V.Schultz-Berendt;
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中图分类石油、天然气工业;
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Optimization of the biological treatment of TPH-contaminated soils in biopiles

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