Author Index

---

Downloaded by 201.37.213.144 on April 3, 2018 | https://pubs.acs.org Publication Date: February 22, 1993 | doi: 10.1021/bk-1993-0518.ix001

Author Index Apel, William Α., 411 Armellini, Fred J., 35 Aust, Steven D., 191 Bamer, Herbert E.,35 Bell, H., 343 Blystone, Paul G., 380 Boardman, G. D., 119 Burkett, W. Α., 343 Cerkanowicz, Anthony E., 358 Colombo, P., 439 Daley, Paul F., 380 Dugan, Patrick R., 411 Eckenfelder, W. Wesley, Jr., 138 Evangelou, V. P., 308 Farmer, J. C., 430 Fulk, L. L., 119 Goldberg, Sabine, 278 Goodloe, J. C., 219 Govind, Rakesh, 159 Haag, Werner R., 380 Heiser, J. H.,439 Helt, J. E., 393 Hickman, R. G., 430 Hocking, P., 106 Holgate, H. Richard, 35 Hong, Glenn T., 35 Hubbard, J. S., 219 Johnson, Earl G., 411 Johnson, Mark D., 380 Johnston, A. J., 106 Just, Sharon R.,238 Kalb, P. D.,439 Killilea, William R., 35

Kitsos, H. M., 219 Krause, T. R., 393 Leung, S. W., 343 Marsi, M., 308 Meyers, A. J., Jr., 219 Michelsen, D. L., 119 Munder, Joseph Α., 85 Norris, Robert D., 138 Ollis, David F., 18 Pignatello, Joseph J., 77 Pohland, Frederick G., 1 Roberts, R. S.,219 Rogers, Robert D.,411 Sathish, Nagappa, 203 Sato, C., 343 Shah, ManishM., 191 Shaw, Henry, 358 Stockwell, Kenneth J., 238 Sun, Yunfu, 77 Tabak, Henry H., 159,203 Tedder, D. William, 1 Tester, Jefferson W., 35 Vella, Philip Α., 85 Wang, F. T., 430 Wang, Yi, 358 Watts, R. J., 343 Webley, Paul Α., 35 Wiebe, Michelle R., 411 Wolfram, James H., 411 Woodby, R. M., 119 Young, James C., 203 Yu, Tia-Chiang, 358

Affiliation Index ABB Lummus Crest, Inc., 35 Agricultural Research Service, 278 Argonne National Laboratory, 393 Brookhaven National Laboratory, 439 Cams Chemical Company, 85 Connecticut Agricultural Experiment Station, 77 Consolidated Edison Company of New York, 343

Eckenfelder Inc., 138 EG&G Idaho Inc., 411 Engineering-Science, Inc., 238 Georgia Institute of Technology, 1,219 Idaho State University, 343 Lawrence Livermore National Laboratory, 380,430 MODAR, Inc., 35 Massachusetts Institute of Technology, 35

452 Tedder and Pohland; Emerging Technologies in Hazardous Waste Management III ACS Symposium Series; American Chemical Society: Washington, DC, 1993.

453

INDEX New Jersey Institute of Technology, 358 North Carolina State University, 18 The Pennsylvania State University, 203 Polytechnic University, 343 Purus Inc., 380 SRI International, 106 Tennessee Eastman Company, 219 U.S. Department of Agriculture, 278

U.S. Environmental Protection Agency, 159,203 University of Cincinnati, 159 University of Kentucky, 308 University of Pittsburgh, 1 University of Sriwijaya, 308 Utah State University, 191 Virginia Polytechnic Institute and State University, 119

Downloaded by 201.37.213.144 on April 3, 2018 | https://pubs.acs.org Publication Date: February 22, 1993 | doi: 10.1021/bk-1993-0518.ix001

Subject Index Acetic acid, supercritical water oxidation, 59 Activated sludge processes, effluent treatment during bioremediation, 153 Activity coefficients, determination, 282 Adsorption edges, description, 287 Adsorptive and chemical pretreatment of reactive dye discharge chemical reduction, 126,129-135 color removal by dye adsorption, 120,122-125 experimental materials, 119-121 flocculation studies, 126,128-129* sorption studies, 120,122-125 total organic carbon removal by dye adsorption, 120,122-123f,l 24 Advanced electronic reactor process, description, 344 Advanced oxidation process(es) applications, 17 chemistries bicarbonate inhibition, 24,27r,28,29/ ease of implementation, 30,3If heterogeneous photocatalysis, 23 high organic compound concentrations, 28,3 l i oxidant cost, 28,31i ozone oxidation mechanism, 18,19-2(y ozone-peroxide mechanism, 21,23 ozone-UV mechanism, 18,2Qf,21,22/ pH sensitivity, 24,25-26/,27f reactor design, 30,32 semiconductor-mediated photooxidation, 23 UV absorbance and scattering, 28,3li UVcost, 28,30,31* UV-peroxide mechanism, 21,22/ description, 5

Aeration of contaminated soils advantages, 260-261 comparison to other technologies, 270,271-272i,273 disadvantages, 261 performance, 260 technology description, 259-260 Aerobic sludge, industrial activated, anaerobic digestion, 219-233 Ag(II) mechanism of aliphatic destruction, 431,432/ observed vs. predicted time-dependent ethylene glycol destruction, 431,432/ use as oxidizing agent, 431 Airborne volatiles, treatment, 9-10 Ammonia, supercritical water oxidation, 58 Ammoni a-methanol mixtures, supercritical water oxidation, 59 Anaerobic digestion of industrial activated aerobic sludge advantages, 219 ammonia concentration determination procedure, 224 anaerobic reactors, 222-224 batch cultures at different initial solids concentration, 221-222 enrichment cultures and reactors, 220-221 enrichment cultures at different pH levels, 221 experimental description, 220 GC procedure, 224 initial solids concentration effect, 225,228/229 interaction of bacterial groups in metabolic steps, 220 operation, 229-233 pH effect, 224-225,226-227/

Tedder and Pohland; Emerging Technologies in Hazardous Waste Management III ACS Symposium Series; American Chemical Society: Washington, DC, 1993.