Factors Influencing Ultraviolet Disinfection Performance Part I: Light Penetration to Wastewater Particles
暂无分享,去创建一个
Frank J. Loge | Donald E. Thompson | Jeannie L. Darby | Douglas C. Nelson | D. Nelson | F. Loge | J. Darby | Robert W. Emerick | R. Emerick
[1] D. D. Marais,et al. A simple fiber-optic microprobe for high resolution light measurements: application in marine sediment , 1986 .
[2] H. Paerl,et al. NITROGENASE ACTIVITY, PHOTOSYNTHESIS, AND THE DEGREE OF HETEROCYST AGGREGATION IN THE CYANOBACTERIUM ANABAENA FLOS‐AQUAE 1 , 1991 .
[3] B. Pierson,et al. Spectral Irradiance and Distribution of Pigments in a Highly Layered Marine Microbial Mat , 1990, Applied and environmental microbiology.
[4] Jerzy J. Ganczarczyk,et al. Stroboscopic determination of settling velocity, size and porosity of activated sludge flocs , 1987 .
[5] J. Pinckney,et al. Photophysiological responses of intertidal benthic microalgal communities to in situ light environments: Methodological considerations , 1993 .
[6] O. Karl Scheible. Development of a rationally based design protocol for the ultraviolet light disinfection process , 1987 .
[7] B. Jørgensen,et al. Optical properties of benthic photosynthetic communities: fiber-optic studies of cyanobacterial mats. , 1988, Limnology and oceanography.
[8] Frank J. Loge,et al. UV Disinfection of Wastewater: Probabilistic Approach to Design , 1996 .
[9] R. Qualls,et al. Factors controlling sensitivity in ultraviolet disinfection of secondary effluents , 1985 .
[10] B. G. Oliver,et al. The disinfection of sewage treatment plant effluents using ultraviolet light , 1975 .
[11] B. Jørgensen,et al. Light penetration and light intensity in sandy marine sediments measured with irradiance and scalar irradiance fiber-optic microprobes , 1994 .
[12] A fibre‐optic scalar irradiance microsensor: application for spectral light measurements in sediments , 1992 .
[13] R. Castenholz,et al. Anoxygenic microbial mats of hot springs: thermophilic Chlorobium sp , 1990 .
[14] J. Stolz. Distribution of phototrophic microbes in the flat laminated microbial mat at Laguna Figueroa, Baja California, Mexico. , 1990, Bio Systems.
[15] B. Jørgensen,et al. The light field of microbenthic communities: Radiance distribution and microscale optics of sandy coastal sediments , 1994 .
[16] K. Sundbäck,et al. Microphytobenthic productivity and biomass in sublittoral sediments of a stratified bay, southeastern Kattegat , 1988 .
[17] B. Jørgensen,et al. Spectral light measurements in microbenthic phototrophic communities with a fiber‐optic microprobe coupled to a sensitive diode array detector , 1992 .
[18] Alan K. Knapp,et al. Measurement of light within thin plant tissues with fiber optic microprobes , 1988 .
[19] R. Carpenter. COMPETITION AMONG MARINE MACROALGAE: A PHYSIOLOGICAL PERSPECTIVE , 1990 .
[20] A. E. Greenberg,et al. Standard methods for the examination of water and wastewater : supplement to the sixteenth edition , 1988 .
[21] B. Jørgensen,et al. Microalgal photosynthesis and spectral scalar irradiance in coastal marine sediments of Limfjorden, Denmark , 1992 .
[22] Donald E. Thompson,et al. Development of a Fluorescent 16S rRNA Oligonucleotide Probe Specific to the Family Enterobacteriaceae , 1999 .
[23] W. Dodds. A modified fiber‐optic light microprobe to measure spherically integrated photosynthetic photon flux density: Characterization of periphyton photosynthesis‐irradiance patterns , 1992 .
[24] Jeannie L. Darby,et al. Particle-associated coliform in secondary effluents: shielding from ultraviolet light disinfection , 1995 .
[25] Michael Kühl,et al. Microenvironment and photosynthesis of zooxanthellae in scleractinian corals studied with microsensors for O2, pH and light , 1995 .