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Optimal Control of Soil Venting Mathematical Modeling and Applications (International Series of Numerical Mathematics) by Marian Slodicka

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Published by Birkhäuser Basel .
Written in English

Subjects:

  • Mathematical modelling,
  • Soil science, sedimentology,
  • Technology,
  • General,
  • Mathematical Models,
  • Soil Pollution,
  • Mathematics,
  • Science/Mathematics,
  • Environmental Engineering & Technology,
  • Angewandte Mathematik,
  • Erdwissenschaften,
  • Hydrologie,
  • Mathematics / General,
  • Medical : General,
  • Soil vapor extraction,
  • Technology : Environmental Engineering & Technology,
  • Applied

Book details:

The Physical Object
FormatHardcover
Number of Pages172
ID Numbers
Open LibraryOL9090466M
ISBN 103764360410
ISBN 109783764360412

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Optimal Control of Soil Venting: Mathematical Modeling and Applications. Authors: Slodicka, M., Gerke, H.H., Hornung, U., Kelanemer, Y., Schumacher, S. Free PreviewBrand: Birkhäuser Basel. Get this from a library! Optimal control of soil venting: mathematical modeling and applications. [Horst H Gerke;] -- "The task to develop a practicable simulation tool for optimal control of soil vapor extraction was attacked by an interdisciplinary group consisting of mathematicians, soil physicists, chemists and. Get this from a library! Optimal control of soil venting: mathematical modeling and applications. [Horst H Gerke;] -- The task to develop a practicable simulation tool for optimal control of soil vapor extraction was attacked by an interdisciplinary group consisting of mathematicians, soil physicists, chemists and. Soil venting is a technique for remediation of soils contaminated by NAPLs (non aqueous phase liquids, often called VOCs, i.e., volatile organic compounds). During the operation of soil venting systems the vapor phase of the nonaqueous phase liquid NAPL is being removed by imposing a convective air stream and thus enhancing the evaporation of.

Optimal Control of Soil Venting: Mathematical Modeling and Applications de Horst H. Gerke, Urs Hornung, Youcef Kelanemer - English books - commander la livre de la catégorie sans frais de port et bon marché - Ex Libris boutique en ligne. Ulrich Hornung's 25 research works with 1, citations and reads, including: Optimal Control of Soil Venting: Mathematical Modeling and Applications. Journal of Hydrology ELSEVIER [2] Journal of Hydrology () Optimal soil venting design using Bayesian decision analysis Jagath J. Kaluarachchia'*, A. H. Wijedasab aUtah Water Research Laboratory, College of Engineering, Utah State University, Logan, UT , USA bIrrigation Department, Colombo, Sri Lanka Received 1 June ; accepted 13 April Cited by: 3. Optimal Control Theory Emanuel Todorov University of California San Diego Optimal control theory is a mature mathematical discipline with numerous applications in both science and engineering. It is emerging as the computational framework of choice for studying the neural control of movement, in much the same way that probabilistic infer-.

Development of Recommendations and Methods to Support Assessment of Soil Venting Performance and Closure United States Environmental Protection Agency Office of Research and Development Washington DC EPA//R/ September Distance from well (cm) Distance from ground. A control volume, finite element method is used to discretize the three phase, three component equations for simulation of gas venting. The discrete equations are . Daniel Hillel, in Soil in the Environment, REMEDIATION OF CONTAMINATED SOILS. Contaminated soils can be remediated by leaching, venting or vapor extraction, microbial decomposition, composting, vegetative uptake and removal, and by soil removal. Leaching of soluble contaminants is done by flushing the soil with water and safely draining away the .   Soil gas moves through holes due to a pressure difference. Since we cannot eliminate the holes, the only thing we can do is control the pressure. The granular drainage pad located under concrete slabs can be integrated into a sub-slab ventilation system to control soil gas migration by creating a zone of negative pressure under the slab.