Abstract: A fluorometric system for on-line monitoring of biological processes uses a plurality of light sources, each with a different spectral width, to illuminate a sample, the light sources selected to produce emission of fluorescent light, and usually also dispersed light, from the illuminated sample. One of the light sources has a wide spectral range. The light sources are operated sequentially or in combination. Spectra acquired from the emitted light are combined and processed to evaluate properties of the sample, such as concentration of the fluorescing components or particle concentration. The system preferably uses an electro-optical probe in which excitation optical energy is transmitted to the sample directly from the light sources, typically LEDs, without an optical waveguide.

Abstract: To reduce the concentration of methyl tert-butyl ether (MTBE) or tert-amyl methyl ether (TAME) in an aquifer polluted by these ethers, a new mineral support for fixing bacteria, and in particular Mycobacterium austroafricanum I-2562, said mineral support comprising perlite, is used in a biobarrier- or biofilter-type process.

Abstract: The invention disclosure is a method of bioremediation of wastewater, particularly groundwater, by utilizing coupled anaerobic and aerobic biological treatment, more specifically, methanogenic (strictly anaerobic) and methanotrophic (strictly aerobic) microbial populations, in combination with a supply of in-situ generated water-dissolved oxygen and hydrogen. Water electrolysis is used to produce water-dissolved oxygen and hydrogen. The immediate advantage of using H2 from the electrolysis, is to provide electron donors to methanogens to reductively dechlorinate the chloroaliphatics, and to reduce the water carbonates and generate methane which is used as energy and carbon source for the methanotrophic bacteria. Oxygen is used as electron acceptor by the aerobic bacteria, including the methanotrophs. The addition of an organic carbon source can be minimized or even eliminated, so as to diminish the competition between methanotrophic bacteria and heterotrophic bacteria for oxygen.

Abstract: A fluorometric system for on-line monitoring of biological processes uses a plurality of light sources, each with a different spectral width, to illuminate a sample, the light sources selected to produce emission of fluorescent light, and usually also dispersed light, from the illuminated sample. One of the light sources has a wide spectral range. The light sources are operated sequentially or in combination. Spectra acquired from the emitted light are combined and processed to evaluate properties of the sample, such as concentration of the fluorescing components or particle concentration. The system preferably uses an electro-optical probe in which excitation optical energy is transmitted to the sample directly from the light sources, typically LEDs, without an optical waveguide.

Abstract: To reduce the concentration of methyl tert-butyl ether (MTBE) or tert-amyl methyl ether (TAME) in an aquifer polluted by these ethers, a new mineral support for fixing bacteria, and in particular Mycobacterium austroafricanum I-2562, said mineral support comprising perlite, is used in a biobarrier- or biofilter-type process.

Abstract: The invention disclosed relates to a method and apparatus for the denitrification of groundwater in situ in an aquifer under substantially anaerobic conditions, the method comprising (a) providing a network, including an extraction well for removal of groundwater from the aquifer and a plurality of injection wells for returning groundwater to the aquifer, the injection wells being arranged in a line substantially perpendicular to the direction of groundwater flow, the extraction well being located downstream or upstream of the line of injection wells, and the spacing of the wells and the number of injection wells being determined by the mathematical relationship J = C p + nC 1 W → min

Abstract: The invention disclosed relates to a method and apparatus for the denitrification of groundwater in situ in an aquifer under substantially anaerobic conditions, the method comprising