Provided are products of manufacture and methods for the removal of gaseous methane and carbon dioxide, for example, for the removal of environmental or atmospheric or anthropogenically produced gaseous methane and carbon dioxide. Products of manufacture as provided herein comprise living emission abolish filters (LEAFs) for the removal of methane and carbon dioxide, where the “living” component of the “emission abolish filter”, or biofilter, comprises a methane-capturing bioagent, optionally comprising halophilic methanotroph bacterium. Products of manufacture as provided herein are manufactured as arrays, sheets, microfibers and/or microbeads comprising immobilized living, active methane-capturing bioagents, optionally comprising halophilic methanotroph bacterium. In alternative embodiments, the methane-capturing bioagents are enclosed or immobilized in or onto a crystal gel matrix or a nanoshell. Products of manufacture as provided herein can replace gas flares, flare stacks or a gas combustion devices, or are used with a methane scrubbing system.

Provided are products of manufacture and methods for the removal of gaseous methane and carbon dioxide, for example, for the removal of environmental or atmospheric or anthropogenically produced gaseous methane and carbon dioxide. Products of manufacture as provided herein comprise living emission abolish filters (LEAFs) for the removal of methane and carbon dioxide, where the “living” component of the “emission abolish filter”, or biofilter, comprises a methane-capturing bioagent, optionally comprising halophilic methanotroph bacterium. Products of manufacture as provided herein are manufactured as arrays, sheets, microfibers and/or microbeads comprising immobilized living, active methane-capturing bioagents, optionally comprising halophilic methanotroph bacterium. In alternative embodiments, the methane-capturing bioagents are enclosed or immobilized in or onto a crystal gel matrix or a nanoshell. Products of manufacture as provided herein can replace gas flares, flare stacks or a gas combustion devices, or are used with a methane scrubbing system.

A biological desulfurization processing system is provided. The biological desulfurization processing system includes a desulfurization reaction tank and a culture tank of desulfurization bacteria. The culture tank of desulfurization bacteria is used for cultivating desulfurization bacteria and is connected to the desulfurization reaction tank. The desulfurization reaction tank includes a desulfurization reaction zone. The desulfurization reaction zone includes at least one desulfurization layer and at least one supporting layer, and the desulfurization layer and the supporting layer are stacked in a staggered manner. A biological desulfurization processing method is also provided.

A biological desulfurization processing system is provided. The biological desulfurization processing system includes a desulfurization reaction tank and a culture tank of desulfurization bacteria. The culture tank of desulfurization bacteria is used for cultivating desulfurization bacteria and is connected to the desulfurization reaction tank. The desulfurization reaction tank includes a desulfurization reaction zone. The desulfurization reaction zone includes at least one desulfurization layer and at least one supporting layer, and the desulfurization layer and the supporting layer are stacked in a staggered manner. A biological desulfurization processing method is also provided.

Biodegradation media placed in, around, and/or above a methane source reduces the quantum of methane and other alkane gases such as ethane, propane, and butane released into the atmosphere under diverse and fluctuating environmental conditions over a sustainable and/or extended duration. Non-biodegradable material configured for methane biodegradation possesses enhanced drainage of precipitation, improved gas transmission and gas exchange, moisture retention, and a nutrient sustainability.

Biodegradation media placed in, around, and/or above a methane source reduces the quantum of methane and other alkane gases such as ethane, propane, and butane released into the atmosphere under diverse and fluctuating environmental conditions over a sustainable and/or extended duration. Non-biodegradable material configured for methane biodegradation possesses enhanced drainage of precipitation, improved gas transmission and gas exchange, moisture retention, and a nutrient sustainability.

The present invention relates to a novel phase transfer solvent composition for enhanced CO.sub.2 and/or H.sub.2S capture from flue gas and biogas having various gaseous compositions. Further, the present invention provides a process of preparing the phase transfer solvent composition of the present invention.

The present invention relates to a novel phase transfer solvent composition for enhanced CO.sub.2 and/or H.sub.2S capture from flue gas and biogas having various gaseous compositions. Further, the present invention provides a process of preparing the phase transfer solvent composition of the present invention.

A genetically modified houseplant capable of reducing levels of volatile organic carcinogenic compounds, such as formaldehyde, benzene, and chloroform, in the indoor air in urban homes of developed countries is disclosed. The plant expresses a detoxifying transgene, mammalian cytochrome P450 2e, and has shown sufficient detoxifying activity against benzene and chloroform. Air purifying biofilters utilizing the plants and methods of their use are also disclosed.

A genetically modified houseplant capable of reducing levels of volatile organic carcinogenic compounds, such as formaldehyde, benzene, and chloroform, in the indoor air in urban homes of developed countries is disclosed. The plant expresses a detoxifying transgene, mammalian cytochrome P450 2e, and has shown sufficient detoxifying activity against benzene and chloroform. Air purifying biofilters utilizing the plants and methods of their use are also disclosed.