A method for vermicomposting includes providing an underground cell comprising a bottom, sidewalls and an open top, layering a base bedding layer at the bottom of the underground cell, layering a bottom organic waste layer on the base bedding layer, layering a stack of one (1) or more intermediate bedding layers and one (1) or more one or more intermediate organic waste layers, alternating between an intermediate bedding layer and an intermediate organic waste layer, on the bottom organic waste layer to partially form a compost heap, layering a top bedding layer on a top organic waste layer of the stack of the intermediate bedding layers and the intermediate organic waste layers to form the compost heap, watering the compost heap at a predetermined watering cycle, introducing worms to the compost heap, aerating the compost heap at a predetermined aeration cycle, and harvesting compost from the compost heap.

A cylindrical container or vessel, for example a pail, includes a bi-directionally rotatable internal auger having a rotation axis extending across a diameter of the shaft and manually-rotated by a handle outside the container, and tines extending in a radial direction of the shaft and arranged to turn and loosen contents of the container. The tines have different lengths and a predetermined relative spacing along the shaft, and be arranged extend at different angles, in order to maximize an amount of matter moved by the tines when rotating the shaft. The container may be vented to optimize aeration.

A solid high-temperature aerobic fermentation reaction system includes a solid high-temperature aerobic fermentation system, a boiler system, an odor and flue gas treatment system, and a test and control system. The solid high-temperature aerobic fermentation system includes 1 to X solid high-temperature aerobic fermentation reactors. Each solid high-temperature aerobic fermentation reactor includes an inclined horizontal drum, a feed side sealing cover labyrinth sealing device, discharge side sealing cover labyrinth sealing device, a power supporting wheel set, a stirring and anti-sticking device and an integrated base. A water jacket is arranged outside the horizontal drum. The stirring and anti-sticking device is positioned in the horizontal drum which is disposed on the power supporting wheel set. The boiler system includes a shot water boiler, a circulating water pump, a three-way electric regulation valve and an electromagnetic valve.

The present invention relates to a method for producing an organic fertilizer with humic substance properties by oxidizing and ammonifying lignite, wherein the organic fertilizer has a nitrogen content of up to 8 wt. %, based on the dry weight of the fertilizer, and a C/N ratio of 7 to 15, which is characterized in that the method is carried out as a continuous method and comprises the following steps: a) dispersing the lignite and aqueous ammonia solution in a dispersing circuit having a dispersing device, a recirculation container, and a recirculation pump; b) oxidizing the suspension from step a) with an oxygen-containing oxidizing agent at a temperature of <100 C. in an oxidation reactor; c) drying the product suspension obtained in step b) at a temperature of >50 C.; and d) cooling the dried product obtained in step c).

An apparatus for controlling water temperature includes a housing defining a composting chamber for receiving compost and a conduit disposed within the housing for providing flow of water. The conduit at least partially receives heat generated by the compost and may include a first subconduit extending substantially about an axis of the housing, a second subconduit extending substantially about the axis of the housing and being spaced apart from the first subconduit and a plurality of elongated subconduits extending between the first subconduit and the second subconduit and providing fluid communication therebetween. The housing may have at least one translucent portion for permitting flow of light waves therethrough. The apparatus may have a mechanism for mixing the compost.

The invention discloses an environmentally friendly fertilizer device based on big data, comprising a work box and a crushing space set in the work box, wherein a crushing driving space is set in one end wall of the crushing space, wherein a crushing mechanism is set in the crushing driving space; by turning on a first electromagnetic switch, the kitchen garbage enters the crushing space from the feed inlet, so the kitchen garbage is crushed by the crushing space. A transmission space is arranged in the lower end wall of the crushing space, and a driving space is set in the lower end wall of the crushing driving space; a stirring space is set in the lower end wall of the transmission space; the crushed kitchen garbage enters the stirring space through a circulation pipeline and is stirred by the stirring mechanism, thereby the kitchen garbage can be fully fermented.

Composting systems and methods are disclosed. A composting kit can be removably installed in roll-off waste containers and/or open-topped shipping containers without modifying the container. The composting kit can include a perforated aeration conduit, a flow regulator positioned along the perforated aeration conduit, and a delivery conduit fluidically coupled to the perforated aeration conduit at a releasable joint comprising a clearance fit. Additionally, the composting kit can include a blower configured to be fluidically coupled to the delivery conduit. The composting kit can be assembled into a working configuration in which the perforated aeration conduit is positioned within the container and the delivery conduit is fluidically coupled to the blower and to the perforated aeration conduit. The components of the composting kit can be removed from the container before the compost is unloaded from the container.

To produce fertilizer, a system and method concentrates manure slurry in a mechanical vapor recompression evaporator (MVR) having a heat exchanger. The MVR receives the manure slurry within a first side to evaporate ammonia laden-water vapor from the slurry, leaving a nutrient concentrate. A compressor raises the evaporated ammonia-laden water vapor to a higher energy state. Within a second side of the heat exchanger, the compressed water vapor conveys heat to the slurry. Ammonia-laden water condenses in the second side at a process temperature to be conveyed to an ammonia stripping tower where the ammonia-laden water is dispersed into ammonia-laden water droplets. In the tower, a flow of air is directed across a surface of the ammonia-laden water droplets, the process temperature having been selected to promote the escape of ammonia gas from the ammonia-laden water droplets, the flow of air provided to entrain ammonia gas in the flow.

To produce fertilizer, a system and method concentrates manure slurry in a mechanical vapor recompression evaporator (MVR) having a heat exchanger. The MVR receives the manure slurry within a first side to evaporate ammonia laden-water vapor from the slurry, leaving a nutrient concentrate. A compressor raises the evaporated ammonia-laden water vapor to a higher energy state. Within a second side of the heat exchanger, the compressed water vapor conveys heat to the slurry. Ammonia-laden water condenses in the second side at a process temperature to be conveyed to an ammonia stripping tower where the ammonia-laden water is dispersed into ammonia-laden water droplets. In the tower, a flow of air is directed across a surface of the ammonia-laden water droplets, the process temperature having been selected to promote the escape of ammonia gas from the ammonia-laden water droplets, the flow of air provided to entrain ammonia gas in the flow.

A planter in the form of a tower planter having an internal vertical composting capability is provided. The planter has a hollow, vertical, outer cylindrical barrel with a plurality of openings formed about its cylindrical side. A hollow inner cylindrical composting tube having a plurality of perforations formed in its cylindrical wall is provided. The space formed between the inner tube and barrel wall is filled with growing medium such as potting soil. The inner tube is filled with compost material. A plurality of worms is added to the inner tube compost material. Water is added to the inner tube and barrel on a daily basis. Plants are inserted into the outer barrel side openings. A removable container is placed at the bottom of the tube and barrel, said container adapted to capture water draining out from the tube and barrel, as well as periodically receiving compost from the compost tube. The key feature of the present invention is an interior vertical perforated chamber within a vertical exterior chamber in which garden plants are grown. The interior chamber provides a composting means, which provides compost that may be recovered and used in other planting environments.