A waste treatment system, includes: at least one reformer for hydrolyzing waste; a microbial reactor for microbially degrading a reformed material containing at least a solid of the waste hydrolyzed by the at least one reformer; a microbial reaction detection device for detecting a state of degradation of the reformed material in the microbial reactor; and an adjustment device for adjusting amount and timing of supply of the reformed material to the microbial reactor, based on a detected value of the microbial reaction detection device.

Systems and methods for producing methanol are provided. A reformer feed gas including methane and carbon dioxide is provided to a methane reformer, which produces a synthesis gas. The synthesis gas includes a first portion of hydrogen, a second portion of carbon monoxide, and a third portion of carbon dioxide. The methane is present in the reformer feed gas in an amount of between 20 volume percent (vol %) and 90 vol % and the carbon dioxide is present in the reformer feed gas in an amount of between 10 vol % and 80 vol %. The synthesis gas is subjected to a methanol synthesis reactor. The methanol synthesis reactor is utilized to produce a methanol product and a purge gas stream from the synthesis gas.

Systems and methods for producing methanol are provided. A reformer feed gas including methane and carbon dioxide is provided to a methane reformer, which produces a synthesis gas. The synthesis gas includes a first portion of hydrogen, a second portion of carbon monoxide, and a third portion of carbon dioxide. The methane is present in the reformer feed gas in an amount of between 20 volume percent (vol %) and 90 vol % and the carbon dioxide is present in the reformer feed gas in an amount of between 10 vol % and 80 vol %. The synthesis gas is subjected to a methanol synthesis reactor. The methanol synthesis reactor is utilized to produce a methanol product and a purge gas stream from the synthesis gas.

The present invention relates to the fields of life sciences, micro-organisms and degradation of hydrocarbon chains such as plastics or synthetic polymers. Specifi-cally, the invention relates to an isolated specific enzyme, or a fragment thereof, wherein said enzyme or fragment is capable of degrading a hydrocarbon chain, and to a micro-organism or a host cell comprising the enzyme or a fragment thereof. Also, the present invention relates to a polynucleotide encoding the enzyme or fragment thereof, and to an expression vector or plasmid comprising the polynucleotide of the present invention. And still, the present invention relates to use of the enzyme, fragment, micro-organism, host cell, polynucleotide, expression vector or plasmid of the present invention for degrading a hydrocarbon chain; to a method of degrading a hydrocarbon chain with the specific enzyme or a fragment thereof; and to a method of producing the enzyme or fragment thereof of the present invention.

A process for transforming a stream of MSW material into feedstock for an anaerobic digester and the resulting generation of biogas and other useful products includes the removal of one or more selected chlorine containing components and the retaining of substantially all paper components. At least 70% by mass of the incoming stream of MSW material is hydrolyzed and subsequently directed to the anaerobic digester.

A process for transforming a stream of MSW material into feedstock for an anaerobic digester and the resulting generation of biogas and other useful products includes the removal of one or more selected chlorine containing components and the retaining of substantially all paper components. At least 70% by mass of the incoming stream of MSW material is hydrolyzed and subsequently directed to the anaerobic digester.

A process and article for carbon sequestration including inducing a negative buoyancy in a carbon source with a non-buoyant material and submerging the carbon source into an aqueous anoxic environment. The negative buoyancy may be induced by bundling or baling the carbon source or by mixing it with a slurry.

The present invention relates to the fields of life sciences, micro-organisms and degradation of hydrocarbon chains such as plastics or synthetic polymers. Specifi-cally, the invention relates to an isolated specific enzyme, or a fragment thereof, wherein said enzyme or fragment is capable of degrading a hydrocarbon chain, and to a micro-organism or a host cell comprising the enzyme or a fragment thereof. Also, the present invention relates to a polynucleotide encoding the enzyme or fragment thereof, and to an expression vector or plasmid comprising the polynucleotide of the present invention. And still, the present invention relates to use of the enzyme, fragment, micro-organism, host cell, polynucleotide, expression vector or plasmid of the present invention for degrading a hydrocarbon chain; to a method of degrading a hydrocarbon chain with the specific enzyme or a fragment thereof; and to a method of producing the enzyme or fragment thereof of the present invention.

A device for processing organic material which may also contain elements with high density, the device being provided with a tank with a digestion space and an inlet for supplying the organic material to be processed The device is provided with at least two sealable outlets. One or more outlets are recycling outlets which are intended to discharge the at least partly digested organic material and at least one outlet is a residue outlet, which is intended for discharging at least a part of the indigestible elements with high density. The residue outlet being located at a lower level than the one or more recycling outlets.

A device for processing organic material which may also contain elements with high density, the device being provided with a tank with a digestion space and an inlet for supplying the organic material to be processed The device is provided with at least two sealable outlets. One or more outlets are recycling outlets which are intended to discharge the at least partly digested organic material and at least one outlet is a residue outlet, which is intended for discharging at least a part of the indigestible elements with high density. The residue outlet being located at a lower level than the one or more recycling outlets.