A bacterial strain with enhanced biosurfactant-production capabilities is provided, as well as methods of its use in, for example, agriculture, livestock husbandry and environmental protection. In a specific embodiment, the present invention is directed to a bacterial strain that has novel properties for producing a mixture of lipopeptides that is unique to its genus and species. Specifically, the bacterium is a novel strain of Bacillus amyloliquefaciens.

The present application is related to a method for controlling heavy metal scouring pollution in mines by using a humified product, which comprises steps of: (1) carrying out mixed fermentation on sludge and hyperthermophiles to breed polar humified groups, and then carrying out mixed fermentation on the fermented material and a native material of humus precursors to induce massive production of humus until the humus content reaches a required standard; and (2) mixing and maintaining the humified product of the sludge reaching the standard with mine soil polluted by heavy metals to remedy the polluted mine.

A composting machine that is positioned within a cabinet under a kitchen sink includes a macerator assembly comprising a plurality of macerator blades for shredding food waste. An extrusion assembly is positioned below the macerator assembly and includes a grinding barrel for receiving the food waste from the macerator assembly and an auger for extruding the food waste through an extrusion plate into a dryer assembly. The dryer assembly includes a compost chamber containing a mixing blade, a fan, and a heating element for generating compost from the food waste.

The present invention relates to a heat tolerance or drying tolerance improving agent, a salt tolerance improving agent, or an activity improving agent for plants, comprising acetic acid or a salt thereof, or a solvate thereof and malic acid or a salt thereof, or a solvate thereof.

A fertilizer with stress-resistant and disease-resistant functions and a method for preparing the same are provided. The fertilizer with stress-resistant and disease-resistant functions is prepared from the following raw materials in parts by weight: 20-40 parts of a nitrogen fertilizer, 20-30 parts of a phosphate fertilizer, 15-20 parts of a potassium fertilizer, 1.5-3.5 parts of trace elements, 2-4 parts of potassium fulvate, 5-20 parts of sodium humate, 5-15 parts of a citric acid, 3-6 parts of sodium gluconate, 2-4 parts of chitosan oligosaccharide, 10-15 parts of garden burnet root, 5-10 parts of kadsura pepper stein, and 5-10 parts of argy wormwood leaf. The fertilizer with the stress-resistant and disease-resistant functions disclosed herein can improve the yield of wheat crops, has strong resistance to wheat scab and wheat sharp eyespot, and can also improve the drought resistance of wheat under drought stress.

A system and method for the production of microbial consortiums and by-product material is provided. A physical containment system comprising phase spaces arranged in a discrete order to favor specific biological reactions is also provided. Phase profiles and phase data sets include the pre-determined physical and biological parameters for the phase space transitions. Movement of material from one phase to the next is hydraulically balanced enabling working fluid to continuously move in a fixed direction and rate of flow. Continuous monitoring of phase profiles and phase data sets provide feedback to the system enabling alteration of the conditions in the system to control reactions therein.

The invention discloses a device for producing biogas with high methane content by utilizing livestock and poultry feces, wherein the interior of a tank body of a biogas fermentation tank is divided by a baffle, so as to form a main reaction chamber and an auxiliary reaction chamber which are communicated in upper portions, so that a reactant flows into the auxiliary reaction chamber only after entering the main reaction chamber via a relatively low feeding hole and then reaching a high position of a liquid level, and extension of fermentation time is realized, meanwhile, scales formed at the top of fermentation broth flow into the auxiliary reaction chamber along with liquid, so that the interior of the main reaction chamber keeps a liquid state all the time, and sealing and reduction of quantity of anaerobic bacteria are avoided.

A method of formulating novel humic material is disclosed comprising mixing one or more portions of Dimethylphenylpiperazinium (DMPP) with one or more portions of N—(N-butyl) thiophosphoric triamide (NBPT) with one or more portions of Isobutylidene-diurea (IBDU) with one or more portions of Polyaspartic Acid with one or more portions of Chitosan and a portion of Mycorrhizae and Rhizobia to form a portion of biostimulant material; obtaining a portion of seaweed harvest and crushing and drying said portion of seaweed to form a portion of seaweed powder; Obtaining a portion of leonardite and crushing said portion of leonardite to form a portion of humic raw material; mixing one or more portion of animal manure with one or more portion of stover with one or more portion of organic waste to form a portion of compositing mix and composting said compositing mix to form a portion of composted product; obtaining a portion of plant waste and subjecting said portion of plant waste through an anaerobic combustion to form a portion of bio char; mixing said portion of bio char with said portion of composted product with said portion of humic product to form a portion of humic processed material; adding a portion of artificial taggant to said humic processed material to form tagged humic product; mixing said tagged humic product with said portion of biostimulant material to form a portion of biostimulant humic product; adding a taggant to said portion of biostimulant humic product to form a portion of tagged biostimulant humic product; mixing one or more portion of phosphorus with a portion of potassium and a portion of nitrogen and a portion of trace minerals to form portion of raw fertilizer; mixing said portion of raw fertilizer with said portion of tagged biostimulant humic product to form a portion of tagged fertilized biostimulant humic product.

A secured “smart” container is disclosed for collecting green waste products including operational functions for collection, video surveillance and monitoring capacity. The secured “smart” container may include one or more programmable logic controllers. Operational functions are performed by electrical components including sensors to determine green waste deposits characteristics and contents. Operational functions are further adapted to send and receive data, operationally wirelessly, and configured and adapted to utilize solar derived electric power and, optionally, electric power from other sources. Embodiments provide constant 24 hour/7 days a week video surveillance and alert monitoring capabilities. Disclosed systems and methods also include collection and transportation of waste contents from the container to a processing subsystem. Additionally, disclosed systems may also include a monitoring system for monitoring the collection of green waste product, delivery of the same to the processing subsystem and tracking to and throughout final processing of the green waste product and handling personnel.

An apparatus for disposing of organic or sewage sludge waste includes: a storage tank configured to collect and accommodate organic or sewage sludge waste; an agitator which is connected to the storage tank to decompose and dry the organic or sewage sludge waste supplied from the storage tank; a first deodorizer which is connected to one side of the agitator to biologically decompose and remove bad-odour substances from a waste gas generated during an agitating process of the organic or sewage sludge waste; a second deodorizer which heats and removes bad-odour substances contained in the waste gas from which the bad-odour substances have been partially removed by the first deodorizer; and a heat exchanger which heats the waste gas, which flows in the second deodorizer, through heat of the waste gas discharged from the second deodorizer.