1 |
Nerenberg, R., Rittmann, B. E., and Najrn, I., 'Perchlorate reduction in a hydrogen-based membrane-biofilm reactor,' J. Amer. Water Works Assn., 94( 11), 103-114 (2002)
|
2 |
Rittmann, B. E., Nerenberg, R., Lee, K. C., Najrn, I., Gillogly, T. E., Lehman, G. E., and Adham, S. S., 'The hydrogen-based hollow-fiber membrane biofilm reactor (HFMBfR) for reducing oxidized contaminants,' Water Sci, Technol.: Water Supply, 4(1), 127-133 (2004)
|
3 |
Yamagiwa, K., Ohkawa, A., and Hirasa, O., 'Simultaneous organic carbon removal and nitrification by biofilm formed on oxygen enrichment membrane,' J. Chem. Engr. Japan, 27, 638-643 (1994)
DOI
ScienceOn
|
4 |
Schaffer, R. B., Ludzack, F. J., and Ettinger, M. B., 'Sewage treatment by oxygenation through permeable plastic films,' J. Water Pollution Control Fedn., 32, 939-941 (1960)
|
5 |
Yeh, S. J., and Jenkins, C. R., 'Pure oxygen fixed film reactor,' J. Environ. Engr., 104, 611-623 (1978)
|
6 |
Suzuki, Y., Miyahara, S., Takeishi, K., Oxygen-supply method using gas-permeable film for waste-water treatment,' Water Sci. Technol., 28(7), 243-250 (1993)
|
7 |
Semmens, M. J., Dahm, D., Shanahan, J., and A. Christianson, A., 'COD and nitrogen removal by biofilm growing on gas permeable membranes,' Water Res., 37, 4343-4350 (2003)
DOI
ScienceOn
|
8 |
Lee, K.-C. and Rittmann, B. E., 'Applying a novel autohydrogenotrophic hollow-fiber membrane biofilm reactor for denitrification of drinking water,' Water Res., 36, 2040-2052 (2002)
DOI
ScienceOn
|
9 |
Ho, C. M., Tseng, S. K., and Chang, Y. J., 'S im ultaneous nitrification and denitrification using an autotrophic membrane immobilized biofilm reactor,' Lett. Appl. Microb., 35, 481-485 (2002)
DOI
ScienceOn
|
10 |
Cole, A. C., Shanahan, J. W., Semmens, M. J., and LaPara, T. M., 'Preliminary studies on the microbial community structure of membrane-aerated biofilms treating municipal wastewater,' Desalination, 146, 421-426 (2002)
DOI
ScienceOn
|
11 |
Cowman, J., Torres, C., and Rittmann, B. E., 'Total nitrogen removal in an aerobic/anoxic membrane biofilm reactor system,' Water Sci. Technol., 52(7), 115-120 (2005)
|
12 |
Clapp, L. W., Regan, J. M., Ali, F., Newman, J. D., Park, J. K., and Noguera, D. R., 'Activity, structure, and stratification of membrane-attached methanotrophic biofilms cometabolically degrading trichloroethylene,' Water Sci. Technol., 39(7), 153-161 (1999)
|
13 |
Pressman, J. G., Georgiou, G., and Speitel, G. E., Jr., 'Scale-up considerations for a hollow-tiber-membrane bioreactor treating trichloroethylene-contaminated water,' Water Environ. Res., 77, 533-542 (2005)
DOI
ScienceOn
|
14 |
Ohandja, D. G., and Stuckey, D. C., 'Development of a membrane-aerated biofilm reactor to completely mineralise perchloroethylene in wastewaters,' J. Chem. Technol. Biotechnol., 81, 1736-1744 (2006)
DOI
ScienceOn
|
15 |
Rittmann, B. E., and McCarty, P. L., Environmental Biotechnology: Principles and Applications, McGraw-Hill Book Co., New York (2001)
|
16 |
Brindle, K., Stephenson, T., and Semmens, M. J., 'Pilot-plant treatment of a high-strength brewery wastewater using a membrane-aeration bioreactor,' Water Environ. Res., 71, 11971204 (1999)
|
17 |
National Research Council, Natural A ttenuation for Ground Water Remediation, National Academy Press, Washington, D.C. (2000)
|
18 |
Brindle, K., and Stephenson, T., 'The application of membrane biological reactors for the treatment of wastewaters,' Biotechnol. Bioengr., 49, 601-610 (1996)
DOI
ScienceOn
|
19 |
Brindle, K., Stephenson, T., and Semmens, M. J., 'Nitrification and oxygen utilization in a membrane aeration bioreactor,' J. Membrane Sci., 144, 197-209 (1998)
DOI
ScienceOn
|
20 |
Pankhania, M., Brindle, K., and Stephenson, T., 'Membrane aeration bioreactors for wastewater treatment: completely mixed and plugflow operation,' Chem. Engr. J., 93, 131-136 (1999)
|
21 |
Casey, E., Glennon, B., and Hamer, G., 'Review of membrane aerated biofilm reactors,' Resources Conservation Recycling, 27, 203-215 (1999)
DOI
ScienceOn
|
22 |
Schramm, A., De Beer, D., Gieseke, A., and Amann, R., 'Microenvironments and distribution of nitrifying bacteria in a membranebound biofilm,' Environ. Microb., 2, 680-686 (2000)
DOI
ScienceOn
|
23 |
Rittmann, B. E., 'The new frontier of oxidized contaminants,' Proc. 4th Int!. Con! Remediation of Chlorinated and Recalictrant Compounds, Battelle Press, Columbus, Ohio, CD-ROM (2004)
|
24 |
Nerenberg, R., and Rittmann, B. E., 'Reduction of oxidized water contaminants with a hydrogen-based, hollow-fiber membrane biofilm reactor,' Water Sci. Technol., 49(1112), 223-230 (2004)
|
25 |
Adham, S., Gillogly, T., Lehman, G., Rittmann, B. E., and Nerenberg, R., Membrane Biofilm Reactor Process for Nitrate and Perchlorate Removal, American Water Works Association Research Foundation, Denver, Colorado (2005)
|
26 |
Shanahan, J. W., and Semmens, M. J., 'Influence of a nitrifying biofilm on local oxygen fluxes across a micro-porous flat sheet membrane,' J. Membrane Sci, 277(1-2), 65-74 (2006)
DOI
ScienceOn
|
27 |
Terada, A., Hibiya, K., Nagai, J., Tsuneda, S., and Hirata, A., 'Nitrogen removal characteristics and biofilm analysis of a membrane-aerated biofilm reactor applicable to high-strength nitrogenous wastewater treatment,' J. Biosci. Bioengr., 95, 170-178 (2003)
DOI
ScienceOn
|
28 |
Shanahan, J. W., and Semmens, M. J., 'Multipopulation model of membrane-aerated biofilms,' Environ, Sci. Technol., 38, 3176-3183 (2004)
DOI
ScienceOn
|
29 |
Cole, A. C., Semmens, M. L., and LaPara, T. M., 'Stratification of activity and bacterial community structure in biofilms grown on mem branes transferring oxygen,' Appl. Environ. Microb., 70, 1982-1989 (2004)
DOI
|
30 |
Gonzalez-Brambila, M., Monroy, O., and Lopez-Isunza, F., 'Experimental and theoretical study of membrane-aerated biofilm reactor behavior under different modes of oxygen supply for the treatment of synthetic wastewater,' Chem. Engr. Sci., 61, 5268-5281 (2006)
DOI
ScienceOn
|
31 |
Downing, L., and Nerenberg, R., 'Performance and microbial ecology of the hybrid membrane biofilm process (HMBP) for concurrent nitrification and denitrification of wastewater,' Water Sci. Technol., 55(8-9), 355-362 (2007)
DOI
ScienceOn
|
32 |
Nerenberg, R., Kawagoshi, Y., and Rittmann, B. E., 'Microbial ecology of a hydrogen-based membrane biofilm reactor reducing perchlorate in the presence of nitrate or oxygen,' Water Res., in press (2007)
|
33 |
Nerenberg, R., and Rittmann, B. E., 'Perchlorate as a secondary substrate in a denitrifying hollow-fiber membrane biofilm reactor,' Water Sci. Technol.: Water Supply, 2(2), 259-265 (2002)
|
34 |
Chung, J., and Rittmann, B. E., 'Simultaneous bio-reduction of trichloroethene, trichloroethane, and chloroform using a hydrogenbased membrane biofilm reactor,' Wat. Sci. Technol., submitted
|
35 |
Ergas, S. J., and Reuss, A. F., 'Hydrogenotrophoc denitrification of drinking water using a hollow fibre membrane bioreactor,' J. Water Supply, 50, 161-171 (2001)
DOI
|
36 |
Chang, C. C., Tseng, S. K., Chang, C. C., and Ho, C. M., 'Reductive dechlorination of 2-chlorophenol in a hydrogenotrophic, gaspermeable, silicone membrane bioreactor,' Bioresource Technol., 90, 323-328 (2003)
DOI
ScienceOn
|
37 |
Chung, J., Ahn, C.-H., Chen, Z., and Rittmann, B. E., 'Bio-reduction of N-nitrosodimethylamine (NDMA) using a hydrogengased membrane biofilm reactor,' Chemosphere, in press (2007)
|
38 |
Lee, K. C., and Rittmann, B. E., 'A novel hollow-fiber membrane biofilm reactor for autohydrogenotrophic denitrification of drinking water,' Water Sci. Technol., 41(4-5), 219-226 (2000)
|
39 |
Rittmann, B. E., and K.-C. Lee, K.-C., Hollow-Fiber Membrane Biofilm 'Reactor for Autohydrogenotrophic Treatment of Water, USA patent 6,387,262 (May 14, 2002)
|
40 |
Rittmann, B. E., and Nerenberg, R., Perchlorate Reduction and Related Water Treatment Methods; U.S. patent no. 7,186,340 (March 6, 2007)
|
41 |
Ho, C. M., Tseng, S. K., and Chang, Y. J., 'Autotrophic denitrification via a novel mem brane-attached biofi lm reactor,' Lett. Appl. Microb., 33, 201-205 (2001)
DOI
ScienceOn
|
42 |
Kauser, J., A Novel Membrane Process for Autotrophic Denitrification, Water Environment Research Foundation, Arlington, Virginia, USA (2003)
|
43 |
Terada, A., Kaku, S., Matsumoto, S, and Tsuneda, S., 'Rapid autohydrogenotrophic denitrification by a membrane biofilm reactor equipped with a fibrous support around a gas-permeable membrane,' Biochem. Engr, J., 31, 84-91 (2006)
DOI
ScienceOn
|
44 |
Masters, G. M., Introduction to Environmental Engineering and Science, 2nd ed., Prentice Hall, Upper Saddle River, New Jersey (1998)
|
45 |
Lee, K.-C., and Rittmann, B. E., 'Effects of pH and precipitation on autohydrogenotrophic denitrification using the hollow-fiber membrane-biofilm reactor,' Water Res., 37, 1551-1556 (2003)
DOI
ScienceOn
|
46 |
Semmens, M. J., Dahm, K., Shanahan, J., and Christianson, A., 'COD and nitrogen removal by biofilms growing on gas permeable membranes,' Water Res., 37, 4343-4350 (2003)
DOI
ScienceOn
|
47 |
Satoh, H., Ono, H., Rulin, B, Kamo, J., Okabe, S., and Fukushi, K.-I., 'Macroscale and microscale analyses of nitrification and denitrification in biofilms attached on membrane aerated biofilm reactors,' Water Res., 38, 1633-1641 (2004)
DOI
ScienceOn
|
48 |
Chung, J., Rittmann, B. E., Wright, W. F., and Bowman, R. H., 'Simultaneous bioreduction of nitrate, perchlorate, selenate, chromate, arsenate, and dibromochloropropane using a hydrogen-based membrane biofilm reactor,' Biodegradation, 18, 199-209 (2007)
DOI
|
49 |
Chung, J., Nerenberg, R., and Rittmann, B. E., 'Bio-reduction of selenate a hydrogenbased membrane biofilm reactor,' Environ. Sci. Technol., 40, 1664-1671 (2006)
DOI
ScienceOn
|
50 |
Chung, J., Nerenberg, R., Torres, C., and Rittmann, B. E., 'Bio-reduction of soluble chromate using a hydrogen-based membrane biofilm reactor,' Water Res., 40, 1634-1642 (2006)
DOI
ScienceOn
|
51 |
Chung, J., Ryu, H., Abbaszadegan, M., and Rittmann, B. E., 'Community structure and function in an Hs-based membrane biofilm reactor capable of bio-reduction of selenate and chromate,' Appl. Microb. Biotechnol., 72, 1330-1339 (2006)
DOI
|
52 |
Chung, J., Krajmalnik-Brown, R., and Rittmann, B. E., 'Bio-reduction of trichloroethene using a hydrogen-based Membrane biofilm reactor,' Environ. Sci. Technol., submitted
|
53 |
Daigger, G. T' Rittmann, B. E., Adham, S. S., and Andreottola, G., 'Are membrane bioreactors ready for widespread application?' Environ. Sci. Technol., 39, 399A-406A (2005)
DOI
ScienceOn
|
54 |
Krajmalnik-Brown, R., Holscher, T., Thomson, I. N., Saunders, F. M., Ritalahti, K. M., and Loffler, F. E., 'Genetic identification of a putative vinyl chloride reductase in Dehalococcoides sp. strain BAV1,' Appl. Environ. Microb., 70, 6347-6351 (2004)
DOI
ScienceOn
|
55 |
Chung, J., Nerenberg, R., and Rittmann, B. E., 'Simultaneous biological reduction of nitrate and perchlorate in brine water using the hydrogen-based membrane biofilm reactor,' J. Environ. Engr., 133, 157-164 (2007)
DOI
ScienceOn
|
56 |
Rittmann, B. E., Nerenberg, R., Stinson, B., Katehis., D., Leong, E., and Anderson, H., 'Hydrogen-based membrane biofilm reactor for wastewater treatment,' Water Intelligence Online, No. 200504029, (2005)
|
57 |
DeCarolis, J., Adham, S. S., and Hirani, Z., Evaluation of Newly Developed Membrane B ioreacator Systems for Water Reclamation-Phase 4. Final Report, Project No., 01- FC81-1157, United States Department of Interior, Bureau of Reclamation, Washington, DC (2007)
|
58 |
Shin, J.-H., Sang, B.-I., Chung, Y.-C., and Choung, Y.-K., 'Feasibility study on the removal of nitrous compounds with a hollow-fiber membrane biofilm reactor', Water, Sci. Technol., 51 (6-7), 365-371 (2005)
|
59 |
Shin, J.-H., Sang, B.-I., Chung, Y.-C., and Choung, Y.-K., 'The removal of nitrogen using an autotrophic hybrid hollow-fiber membrane biofilm reactor,' Desalination, 183, 447-545 (2005)
DOI
ScienceOn
|
60 |
Shin, J .-H., Sang' B.-I., Chung, Y.-C., and Choung Y.-K., 'A novel CSTR-type of hollow fiber membrane biofilm reactor for consecutive nitrification and denitrification,' Desalination, in press (2007)
|
61 |
Onishi, H., Mumazawa, R., and Takeda, H., Process and Apparatus for Water Treatment, U. S. Patent 4,181,604 (1980)
|
62 |
Onishi, H., and Numazawa, R., Biochemical Process for Purifying Contaminated Water, U. S. Patent 4,746,435 (1998)
|
63 |
Timberlake, D., Strand, S. E., and Williamson, K. J., 'Combined aerobic heterotrophic oxidation, nitrification, and denitrification in a permeable supported biofilm,' Water Res., 22, 1513-1517 (1988)
DOI
ScienceOn
|
64 |
LaPara, T. M., Cole, A. C., Shanahan, J. W., and Semmens, M. J., 'The effects of organic carbon, ammonical-nitrogen, and oxygen partial pressure of the stratification of membrane-aerated biofilms,' J. Indust. Microb. Biotech., 33, 315-323 (2006)
DOI
|
65 |
Chung, J. and Rittmann, B. E., 'Bio-reductive dechlorination of 1,1,1-trichloroethane and chloroform using a hydrogen-based membrane biofilm reactor,' Biotechnol. Bioengr., 97, 52-60 (2007)
DOI
ScienceOn
|
66 |
Brindle, K., and Stephenson, T., 'Nitrification in a bubbleless oxygen mass transfer membrane bioreactor,' Water Sci. Technol., 39(9), 261-267 (1996)
|
67 |
Chung, J., Li, X., and Rittmann, B. E., 'Bio-reduction of arsenate using a hydrogenbased membrane biofilm reactor,' Chemosphere, 40, 24-34 (2006)
|
68 |
Suzuki, Y., Hatano, N., Ito, S., and Ikeda, H., 'Performance of nitrogen removal and biofilm structure of porous gas permeable membrane reactor,' Water Sci. Technol., 41, (4-5), 211-217 (2000)
|
69 |
Rittmann, B. E., 'The membrane biofilm reactor: the natural partnership of membranes and biofilm,' Water Sci. Technol., 53(3), 219-226 (2006)
|
70 |
Pankhania, M., Stephenson, T., and Semmems, M. J., 'Hollow fiber bioreactor for wastewater treatment using bubbleless membrane aeration,' Water Res., 28, 2233-2236 (1994)
DOI
ScienceOn
|
71 |
He, J., Sung, Y., Krajmalnik-Brown, R., Ritalahti, K. M., and Loffler, R. E., 'Isolation and characterization of Dehalococcoides sp. Strain FL2, a trichlroroethene (TCE) and 1,2-dichloroethene-respiring anaerobe,' Environ. Microb., 7, 1442-1450 (2005)
DOI
ScienceOn
|
72 |
Downing, L., and Nerenberg, R., Kinetics of microbial bromate reduction in a hydrogenoxidizing, denitrifying biofilm reactor,' Biotechnol. Bioengr., 38, 499-506 (2007)
DOI
|
73 |
Nerenberg, R., Kawagoshi, Y., and Rittmann, B. E., 'Kinetics of an autotrophic, hydrogenoxidizing perchlorate-reducing bacterium,' Water Res., 40, 3290-3296 (2007)
DOI
ScienceOn
|
74 |
Hibiya, K., Terada, A., Tsuneda, S., and Hirata, A., 'Simultaneous nitrification and denitrification by controlling vertical and horizontal microenvironment in a membrane aerated biofilm reactor,' J. Biotechnol., 100 (1): 23-32 (2003)
DOI
ScienceOn
|
75 |
Jacome, A., Molina, J., Suarez, J., and Tejero, I., 'Simultaneous removal of organic matter and nitrogen compounds in autoaerated biofilms,' J. Environ. Engr., 132, 1255-1263 (2006)
DOI
ScienceOn
|
76 |
Aziz, C. E., Fitch, M. W., Linquist, L. K., Pressman, J. G., Georgiou, G., and Speitel, G. E., 'Methanotrophic biodegradation of trichloroethylene in a hollow fiber membrane bioreactor,' Environ. Sci. Technol. 29, 2574-2583 (1995)
DOI
ScienceOn
|