A micro-carbon bio-fertilizer for rapidly increasing a soil granular structure and a preparation method thereof are provided. The formula composition of the micro-carbon bio-fertilizer by mass percentage is: 30-60% of micro carbons, and 40-70% of plant fibers. The preparation process includes is that: preparation of raw materials; filtration and purification of the raw materials; biodegradation; canning of semi-finished product; dispensing and mixing; sedimentation and achievement of finished product. The macromolecular carbohydrates contained in the industrial wastewater rich in organic matters are activated into micro carbons of 100 m in average through biotechnologies. The micro carbons have natural affinity with soil and split the soil into small particles which are gathered to form a granular structure. Such a granular structure mitigates the degree of soil hardening and acidification, while quickly increasing soil fertility and improving crop quality and yield.

The present invention is related to an anaerobic photobioreactor and a method for active biomass cultivation, wastewater treatment, nutrients recovery, energy production and high-value products synthesis. Phototrophic bacteria are cultured in the anaerobic photobioreactor lighted with solar or artificial irradiation where certain light wavelengths are selectively discarded with a light selector installed on the top of the photobioreactor. In this light-based process wastewater treatment and resources recovery, like nutrients and high-value bioproducts (fertilizers, polymers and proteins) present in wastewater are performed simultaneously. Cultured biomass is treated by anaerobic digestion for biofuel production, including optative hydrolytic pre-treatment, and/or valuable bioproducts can be obtained in a downstream process.

Disclosed herein is a biochar controlled release fertilizer composition. Various embodiments include biochar and one or more nutrients encapsulated in a biodegradable polymer composite. Further embodiments of the controlled release fertilizer composition include one or more of alginate, kaolin, and waste water sludge. The nutrients of the fertilizer may be released such as to be available at the time needed for crop growth while minimizing waste and potentially harmful environmental effects.

The present disclosure relates to an inorganic, halogen-free flameproofing agent produced from modified, carbonized red mud (MKRS-HT) having, in some examples, a mineral composition of 10 to 50 weight % of iron compounds, 12 to 35 weight % of aluminum compounds, 5 to 17 weight % of silicon compounds, 2 to 10 weight % of titanium dioxide, 0.5 to 6 weight % of calcium compounds, the weight ratio of Fe (II) carbonate to the oxides of iron being at least 1. Examples of the agent can be used as a flame retardant in the high-temperature range. The disclosure further relates to an agent produced from modified, carbonized and rehydrated red mud, which can be used as a flame retardant in the low-temperature and high-temperature ranges, methods for producing same and use as flame retardants. The disclosure further relates to a flameproofed material system and methods for producing same.

The disclosure relates to an inorganic, halogen-free flameproofing agent produced from modified, recarbonized red mud (MKRS-HT). The agent may have a mineral composition of 10 to 50 weight % of iron compounds, 12 to 35 weight % of aluminum compounds, 5 to 17 weight % of silicon compounds, 2 to 10 weight % of titanium dioxide, 0.5 to 6 weight % of calcium compounds the weight ratio of Fe (II) carbonate to the oxides of iron being at least 1. The agent, according to examples, can be used as a flame retardant in the high-temperature range. The disclosure further relates to flameproofing agent produced from modified, recarbonized and rehydrated red mud, which may be a flame retardant in the low-temperature range as well as in the high-temperature range, methods for producing same and use as flame retardants, substitutes, synergists, thermal stabilizers, heat accumulators, heat insulators and/or sound insulators and/or as electromagnetic radiation shielding materials.

A method of treating water contaminated with a phosphorus specie and a method for manufacturing a fertilizer are provided.

Methods and systems for pre-treatment of sludge and biosolids in preparation for electrochemical valorization is disclosed herein. Such methods can include selecting a sludge source; preparing a slurry, where the slurry comprises the sludge source and an electrolyte; adjusting a pH of the slurry, where the adjusting the pH of the slurry results in the slurry having an adjusted pH in a range between approximately 8 and 13; flowing the slurry through a first electrochemical cell, where the first electrochemical cell enables partial oxidation of the sludge via hydroxyl radicals; and flowing the partially oxidized slurry from the first electrochemical cell to a second electrochemical cell for selective conversion, where the second electrochemical cell includes an anode, a cathode, and a catalyst.

Disclosed are methods of dewatering solid byproduct. In some embodiments, the solid byproduct contains particles and is produced from a fermentation process for making an oxygenated compound such as ethanol. The method comprises a chemical sequence for conditioning (pre-treating) the solid byproduct to be dewatered. The solid byproduct (in water) is treated with alkaline material to increase its pH to about 7-8.5. Coagulant is added to the alkaline-treated solid byproduct to reduce charge on the solid byproduct. An agglomerating polymer is then added to increase the average size of the solid byproduct particles to a desired size (e.g., at least about 1 mm). Dewatering can further use known technologies such as screw press, belt press, filter press, centrifuge, and/or a dryer to separate the conditioned or pre-treated byproduct from water. Also disclosed are methods of producing oxygenated product, as well as methods of producing animal feed and/or fertilizer, respectively.

A system of waste management and compost generation comprising: a waste collection system wherein waste is collected in separated compostable and non compostable waste streams from at least one source in trackable bins; and wherein the trackable bins contain separated compostable and non compostable waste streams from at least one source; a processing facility which receives and processes the compostable and non compostable waste in the trackable bins; a sorting system for further processing the waste from the trackable bins into a compostable stream and a non compostable stream; a communication and data entry system for collecting the data from the sorting system and reporting the data to at least one source; a composting system which processes the compostable stream into compost material; and a processing system that processes or bundles a high percentage of the non compostable stream into useful products.

A treatment method for full resource recovery from sludge in municipal wastewater treatment plants is provided. Ozone is used to oxidize the cell contents of sludge, and the hermetia illucens pupa shell powder slurry, polydimethyl diallyl ammonium chloride and the like are used as conditioning materials and materials for improving the water retention performance of residues. The dehydrated products are prepared into soil water retention materials, the heavy metals separated from the sludge are recovered in a ferrite way, and the organic carbon in the liquid phase is utilized as a carbon source of a wastewater treatment plant.