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1. |
Superfund: Focusing on the real problems |
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Environmental Progress,
Volume 12,
Issue 3,
1993,
Page 2-2
Joel S. Hirschhorn,
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ISSN:0278-4491
DOI:10.1002/ep.670120302
出版商:American Institute of Chemical Engineers
年代:1993
数据来源: WILEY
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2. |
Environmental shorts |
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Environmental Progress,
Volume 12,
Issue 3,
1993,
Page 3-3
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PDF (145KB)
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ISSN:0278-4491
DOI:10.1002/ep.670120315
出版商:American Institute of Chemical Engineers
年代:1993
数据来源: WILEY
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3. |
Washington environmental newsletter |
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Environmental Progress,
Volume 12,
Issue 3,
1993,
Page 4-4
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PDF (586KB)
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ISSN:0278-4491
DOI:10.1002/ep.670120316
出版商:American Institute of Chemical Engineers
年代:1993
数据来源: WILEY
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4. |
Risk Management of Chemicals in the Environment by Hans M. Seip and Anders B. Heiberg, Plenum Press, New York, NY, (1989). [ISBN No.: 0‐203‐43081‐9], U.S. List Price: $65.00 |
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Environmental Progress,
Volume 12,
Issue 3,
1993,
Page 5-6
Hamid R. Kavianian,
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PDF (231KB)
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ISSN:0278-4491
DOI:10.1002/ep.670120318
出版商:American Institute of Chemical Engineers
年代:1993
数据来源: WILEY
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5. |
Occupational Hygiene Management Guide by Stanley E. Jones, H. Roland Hosein, Glenn R. Swalm and Jack F. Yablonsky, Lewis Publishers Inc., Chelsea, MI (1990) [ ISBN No.: 0‐87371‐255‐2], U.S. List Price: $45.00 |
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Environmental Progress,
Volume 12,
Issue 3,
1993,
Page 6-7
Hamid R. Kavianian,
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PDF (189KB)
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ISSN:0278-4491
DOI:10.1002/ep.670120319
出版商:American Institute of Chemical Engineers
年代:1993
数据来源: WILEY
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6. |
Rerofitting Publicity‐Owned Treatment Works for Compliance, Pollution Technology Review No. 190 by Bob A. Hegg, Larry DeMers and John Barber, Noyes Data Corp., Park Ridge, N.J. (1990), 271 pages, [ISBN No.: 0‐8155‐1251‐1], U.S. List Price: $45.00 |
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Environmental Progress,
Volume 12,
Issue 3,
1993,
Page 7-7
Gary F. Bennett,
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PDF (122KB)
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ISSN:0278-4491
DOI:10.1002/ep.670120320
出版商:American Institute of Chemical Engineers
年代:1993
数据来源: WILEY
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7. |
Environmental software from flyers |
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Environmental Progress,
Volume 12,
Issue 3,
1993,
Page 8-14
A. Kumar,
S. Sahore,
N. K. Bellam,
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PDF (533KB)
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ISSN:0278-4491
DOI:10.1002/ep.670120321
出版商:American Institute of Chemical Engineers
年代:1993
数据来源: WILEY
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8. |
NOXSO SO2/NOxflue gas treatment process Proof‐of‐Concept test |
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Environmental Progress,
Volume 12,
Issue 3,
1993,
Page 163-168
W. T. Ma,
J. L. Haslbeck,
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PDF (608KB)
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摘要:
AbstractThe NOXSO process uses a regenerable sorbent that removes SO2and NOxsimultaneously from flue gas. The sorbent is a γ alumina bead impregnated with sodium carbonate. The process was successfully tested at three different scales, equivalent to 0.017, 0.06 and 0.75 MW of flue gas generated from a coal‐fired power plant. The Proof‐of‐Concept (POC) Test is the last test prior to a full‐scale demonstration. A slip stream of flue gas equivalent to a 5 MW coal‐fired power plant was used for the POC test. This paper summarizes the NOXSO POC process and its current te
ISSN:0278-4491
DOI:10.1002/ep.670120303
出版商:American Institute of Chemical Engineers
年代:1993
数据来源: WILEY
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9. |
Implementing the new water quality standards—fitting the puzzle together |
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Environmental Progress,
Volume 12,
Issue 3,
1993,
Page 169-174
Edmund A. Kobylinski,
Gary L. Hunter,
Elizabeth A. Quinlan,
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PDF (650KB)
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ISSN:0278-4491
DOI:10.1002/ep.670120304
出版商:American Institute of Chemical Engineers
年代:1993
数据来源: WILEY
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10. |
Chemical barriers for controlling groundwater contamination |
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Environmental Progress,
Volume 12,
Issue 3,
1993,
Page 175-181
S. J. Morrison,
R. R. Spangler,
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PDF (651KB)
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摘要:
AbstractChemical barriers are being explored as a low‐cost means of controlling groundwater contamination. The barrier can intercept a contaminant plume and prevent migration by transferring contaminants from the groundwater to immobile solids. A chemical barrier can be emplaced in a landfill liner or in an aquifer cutoff wall or can be injected into a contaminant plume. Chemical barriers can be classified as either precipitation barriers or sorption barriers depending upon the dominant mode of contaminant extraction. In a precipitation barrier, contaminants are bound in the structures of newly formed phases; whereas, in a sorption barrier, contaminants attach to the surfaces of preexisting solids by adsorption or some other surface mechanism. Sorption of contaminants is pH dependent. A precipitation barrier can control the pH of the system, but alkaline groundwater may dominate the pH in a sorption barrier. A comparison is made of the characteristics of precipitation and sorption barriers. Experimental data on the extraction of uranium and molybdenum from simulated groundwater are used to demonstrate these concept
ISSN:0278-4491
DOI:10.1002/ep.670120305
出版商:American Institute of Chemical Engineers
年代:1993
数据来源: WILEY
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