Culture systems and methods of using same. The systems include a housing defining an inner space. The inner space includes a headspace and at least a portion of a reservoir. A surface for immobilizing cells is moveable between the headspace and the reservoir. The systems can be used for coculturing methanotrophs and phototrophs for processing biogas and wastewater, particularly from anaerobic digesters.

A multi-stage treatment system for removal of target vapor compounds from a contaminated air stream consisting of an initial bioscrubber stage utilizing a plurality of filter media derived from foamed glass immediately followed by a biofilter stage utilizing a plurality of media derived from the calcareous exoskeleton of a bivalve mollusk (shell media).

A multi-stage treatment system for removal of target vapor compounds from a contaminated air stream consisting of an initial bioscrubber stage utilizing a plurality of filter media derived from foamed glass immediately followed by a biofilter stage utilizing a plurality of media derived from the calcareous exoskeleton of a bivalve mollusk (shell media).

It is advisable to remove harmful pathogens by filtering the air in a space using a set of filters over intakes. As the air travels through ductwork for that purpose the filters remove harmful pathogens. Harmful pathogens may include viruses or bacteria to name a few. Other pathogens may also be removed depending on the filtration media. This device is designed to be portable and caster wheels that can be locked have been placed on the air handler of the device.

It is advisable to remove harmful pathogens by filtering the air in a space using a set of filters over intakes. As the air travels through ductwork for that purpose the filters remove harmful pathogens. Harmful pathogens may include viruses or bacteria to name a few. Other pathogens may also be removed depending on the filtration media. This device is designed to be portable and caster wheels that can be locked have been placed on the air handler of the device.

There is provided a system for circulating air. The system for circulating air has a concrete element that has an open cell porous matrix concrete. The concrete element has an inner surface opposite an outer surface. The inner surface faces an enclosed dwelling space of a building. The system for circulating air has an air circulation conduit in fluid flow communication with the outer surface of the concrete element, and a fan configured to circulate air along the air circulation conduit and through the open cell porous matrix, across a thickness of the concrete element, into the enclosed dwelling space.

There is provided a system for circulating air. The system for circulating air has a concrete element that has an open cell porous matrix concrete. The concrete element has an inner surface opposite an outer surface. The inner surface faces an enclosed dwelling space of a building. The system for circulating air has an air circulation conduit in fluid flow communication with the outer surface of the concrete element, and a fan configured to circulate air along the air circulation conduit and through the open cell porous matrix, across a thickness of the concrete element, into the enclosed dwelling space.

A single-stage or multi-stage biological odor control treatment system for the removal of target vapor compounds from a contaminated air stream consisting of a first stage (onsite non-potable water treatment) where raw collection system non-potable water is extracted from the sewer collection system, screened and sprayed over a media bed where it is treated to secondary effluent water quality and is collected in a tank. The onsite non-potable water treatment system effluent is then pumped to the biological odor control system. This onsite non-potable water treatment system effluent is used for irrigating either a single media bed, or multiple media beds, which require continuous moisture and a source of nutrients. The microorganisms use the odorous compounds in the foul air stream as a food source. Treated air is then discharged to the atmosphere. The odor control treatment system drain water is then returned into the source containment collection point.

A single-stage or multi-stage biological odor control treatment system for the removal of target vapor compounds from a contaminated air stream consisting of a first stage (onsite non-potable water treatment) where raw collection system non-potable water is extracted from the sewer collection system, screened and sprayed over a media bed where it is treated to secondary effluent water quality and is collected in a tank. The onsite non-potable water treatment system effluent is then pumped to the biological odor control system. This onsite non-potable water treatment system effluent is used for irrigating either a single media bed, or multiple media beds, which require continuous moisture and a source of nutrients. The microorganisms use the odorous compounds in the foul air stream as a food source. Treated air is then discharged to the atmosphere. The odor control treatment system drain water is then returned into the source containment collection point.

A method for simultaneously removing high-load sulfur dioxide and nitrogen oxide in waste gas, relating to the technical field of industrial waste gas purification by biological methods. According to the method, the waste gas is led into a simultaneous desulfurization and denitrification packing tower and removed, microbial floras for simultaneously removing the sulfur dioxide and the nitrogen oxide are loaded on fillers of the packing tower, and the molar concentration ratio of the sulfur dioxide to the nitrogen oxide in the waste gas is (0.76˜1.06):1.