Author : United States. Environmental Protection Agency
Publisher :
Page : 2 pages
File Size : 10,85 MB
Release : 1994
Category : Air
ISBN :
Author :
Publisher :
Page : 37 pages
File Size : 14,78 MB
Release : 1992
Category :
ISBN :
Air stripping is an economical and efficient method of removing dissolved volatile organic compounds (VOCs) from contaminated groundwater. Air strippers, however, produce a vent air stream, which must meet the local air quality limits. If the VOC content exceeds the limits, direct discharge is not possible; therefore, a carbon adsorption VOC capture system is used to treat the vent air. This treatment step adds a cost of at least $50/lb of VOC captured. In this program, a combined air stripper/membrane vapor separation system was constructed and demonstrated in the laboratory. The membrane system captures VOCs from the stripper vent stream at a projected cost of $15/lb VOC for a water VOC content of 5 ppmw, and $75/lb VOC for a water VOC content of 1 ppmw. The VOCs are recovered as a small, concentrated liquid fraction for disposal or solvent recycling. The concept has been demonstrated in experiments with a system capable of handling up to 150,000 gpd of water. The existing demonstration system is available for field tests at a DOE facility or remediation site. Replacement of the current short air stripping tower (effective height 3 m) with a taller tower is recommended to improve VOC removal.
Author :
Publisher :
Page : 21 pages
File Size : 44,25 MB
Release : 2001
Category :
ISBN :
Membrane Technology and Research, Inc.'s (MTR's) membrane-based off-gas treatment technology separates the organic components from the off-gas stream, producing a VOC-free air stream that can be discharged or recycled to the gas-generating process. The membrane system produces a constant, high-quality air discharge stream irrespective of the feed-air composition. The system also produces a concentrated liquid VOC stream for disposal. Any water vapor present in the off-gas is removed as condensed dischargeable water. Benefits: Applicable to a broad range of off-gas generating sources. Target streams are off-gas from soil remediation by in situ vacuum extraction or air and steam sparging, and soil vitrification Suitable for remote sites: systems require minimal site preparation, little operator attention once installed, electrical power but no other utilities, and no expendable chemicals Minimizes waste volume: dischargeable air and water are produced, and VOCs removed from the feed gas ar e concentrated into a condensed liquid. No other waste streams result Treats off-gases containing both flammable and nonflammable and chlorinated and nonchlorinated VOCs Cost competitive with other technologies in the VOC concentration range 100-1,000 ppm and offers significant cost reduction at higher VOC concentrations Systems are easily moved and transported to new sites with a minimum of refurbishing or modification Generates no air emissions, minimizing permitting issues and speeding up the start of a clean-up operation Technology: Removal of VOCs from air streams with membranes is a relatively new technology.
Author :
Publisher :
Page : 646 pages
File Size : 24,88 MB
Release : 1994
Category : Hazardous waste site remediation
ISBN :
Author : Edward C. Moretti
Publisher : American Institute of Chemical Engineers
Page : 178 pages
File Size : 29,30 MB
Release : 2001
Category : Science
ISBN :
This is an update of the AIChE/CWRT 1993 publication Current and Potential Future Industrial Practices for Reducing and Controlling Volatile Organic Compounds (C-2), which focused on commercially available end-of-pipe abatement equipment. It revisits the topic by considering the technological applicability and cost-effectiveness of destructive devices as well as recovery devices. It includes much of the valuable research from an early 1990s DuPont Company study of VOC and HAP abatement technologies to assess technical and economic feasibility for equipment using a model stream of nonhalogenated VOCs.
Author : Hongqiang Ren
Publisher : Elsevier
Page : 366 pages
File Size : 30,73 MB
Release : 2024-08-22
Category : Science
ISBN : 0443267308
Volatile Organic Compound Removal: Technologies and Functional Materials for VOC Removal details technologies and materials for the removal of volatile organic compounds (VOCs) from polluted air, covering not only the fundamental mechanisms, processes, and designs of the latest VOC abatement technologies, but also the characteristics and applications of advanced functional materials for VOC removal. The first half of this book centers on VOC abatement technologies including catalytic degradation, thermal oxidation, membrane separation, adsorption, absorption, and condensation, whereas the second half focuses on the applications of functional materials, especially novel nanomaterials, in VOC removal. Volatile Organic Compound Removal: Technologies and Functional Materials for VOC Removal is unique in covering both the fundamental mechanisms and practical applications of VOC abatement technologies, as well as focusing on the preparation, characterization, and application of novel functional materials for VOC removal. - Details both the technologies and the functional materials possible for use in destructive and non-destructive removal of VOCs - Covers both sustainability-related issues and nanotechnology applications for VOC removal - Includes detailed case studies in appropriate chapters
Author : Yuri Yampolskii
Publisher : John Wiley & Sons
Page : 440 pages
File Size : 32,10 MB
Release : 2017-01-10
Category : Technology & Engineering
ISBN : 1119112737
Si containing polymers have been instrumental in the development of membrane gas separation practices since the early 1970s. Their function is to provide a selective barrier for different molecular species, where selection takes place either on the basis of size or on the basis of physical interactions or both. Combines membrane science, organosilicon chemistry, polymer science, materials science, and physical chemistry Only book to consider polymerization chemistry and synthesis of Si-containing polymers (both glassy and rubbery), and their role as membrane materials Membrane operations present environmental benefits such as reduced waste, and recovered/recycled valuable raw materials that are currently lost to fuel or to flares
Author :
Publisher :
Page : 48 pages
File Size : 13,71 MB
Release : 1997
Category :
ISBN :
In situ vacuum extraction, air or steam sparging, and vitrification are widely used methods of remediating soil contaminated with volatile organic compounds (VOCs). All of these processes produce a VOC-laden air stream from which the VOC must be removed before the air can be discharged or recycled to the generating process. Treatment of these off-gases is often a major portion of the cost of the remediation project. Carbon adsorption and catalytic incineration, the most common methods of treating these gas streams, suffer from significant drawbacks. This report covers the first phase of a two-phase project. The first phase involved the laboratory demonstration of the water separation section of the unit, the production and demonstration of new membrane modules to improve the separation, the design studies required for the demonstration system, and initial contacts with potential field sites. In the second phase, the demonstration system will be built and, after a short laboratory evaluation, will be tested at two field sites.
Author : J. G. Wijmans
Publisher :
Page : 39 pages
File Size : 10,68 MB
Release : 2003
Category :
ISBN :
In situ vacuum extraction, air or steam sparging, and vitrification are widely used to remediate soil contaminated with volatile organic compounds (VOCs). All of these processes produce a VOC-laden air stream from which the VOC must be removed before the air can be discharged or recycled to the generating process. Treatment of these off-gases is often a major portion of the cost of the remediation project. Currently, carbon adsorption and catalytic incineration are the most common methods of treating these gas streams. Membrane Technology and Research, Inc. (MTR) proposed an alternative treatment technology based on selective membranes that separate the organic components from the gas stream, producing a VOC-free air stream. This technology can be applied to off-gases produced by various remediation activities and the systems can be skid-mounted and automated for easy transportation and unattended operation. The target performance for the membrane systems is to produce clean air (less than 10 ppmv VOC) for discharge or recycle, dischargeable water (less than 1 ppmw VOC), and a concentrated liquid VOC phase. This report contains the results obtained during Phase II of a two-phase project. In Phase I, laboratory experiments were carried out to demonstrate the feasibility of the proposed approach. In the subsequent Phase II project, a demonstration system was built and operated at the McClellan Air Force Base near Sacramento, California. The membrane system was fed with off-gas from a Soil Vacuum Extraction (SVE) system. The work performed in Phase II demonstrated that the membrane system can reduce the VOC concentration in remediation off-gas to 10 ppmv, while producing a concentrated VOC phase and dischargeable water containing less than 1 ppmw VOC. However, the tests showed that the presence of 1 to 3% carbon dioxide in the SVE off-gas reduced the treatment capacity of the system by a factor of three to four. In an economic analysis, treatment costs of the membrane system were compared with those of catalytic oxidation and carbon adsorption. This analysis showed that the treatment costs of the membrane system are higher than those of the competing technologies in the VOC concentration range up to 1%. Catalytic oxidation is the most economical treatment technology for off-gases containing VOCs in the range 50 ppmv to 1%, whereas carbon adsorption (off-site regeneration) is the most economical for VOC concentrations less than 50 ppmv. Because the VOC concentration in the vast majority of remediation off-gases is below 1%, we conclude that the usefulness of membrane VOC-separation systems for remediation applications will be very limited.
Author : Anil Kumar Pabby
Publisher : CRC Press
Page : 868 pages
File Size : 45,8 MB
Release : 2015-04-09
Category : Science
ISBN : 1466555580
The Handbook of Membrane Separations: Chemical, Pharmaceutical, Food, and Biotechnological Applications, Second Edition provides detailed information on membrane separation technologies from an international team of experts. The handbook fills an important gap in the current literature by providing a comprehensive discussion of membrane application
