Methods for the treatment of metallic particles such as heavy metal particles and objects contaminated with the metallic particles. For the treatment of objects contaminated with the metallic particles, a stabilizing composition may be applied to the object with or without a fixation agent. For the treatment of free-flowing metallic particles, an agglomeration agent may be used with or without a stabilizing agent.

Fossil-fuel and rubber-derived waste stream conversion to composite lumber substitutes or barrier members; the composites having material properties and uses of greater value than the solid waste stream components separately or together. Preferred combinations including waste materials derived from waste carpet, waste tires, and waste bituminous roofing shingles, all enormous problems for landfill disposal. In a range of formulation ratios, when combined with a binder, new and marketable products are made from solid waste. Improved resistance to rot, to water, and to weathering is exhibited in synergy with improved compressive and flexural strength, enabling production of a wide variety of useful and environmentally-friendly structural products, for example. Product weight and strength can be engineered to suit and may be structural members for architectural, engineering or agricultural use. Advantageously, the new products themselves can be re-usedby an end-of-life process for making more new products, achieving the capacity to make and remake multigenerational products from solid wastes and to reduce loading of landfills.

Manufacturing methods for repurposing organic green waste into bio-friendly byproducts using particular manufacturing configurations of multiple grinders, trommels, baffles, screens, and mixers for recycling various waste material components into desirable byproducts. Byproducts of organic waste material can be obtained through methods of their processing, recycling, and/or disposal. A method of obtaining a bio-friendly byproduct can include introducing a first waste material, which includes palm frond particles into a first grinder configured to expel particles having a length and/or diameter no greater than three inches (about 76 mm). The first waste material has a moisture content below 20% by weight. The first grinder can be configured to grind the first waste material into first particles having a length less than three inches (about 76 mm). A second grinder can be used to grind the first particles into second particles having a length less than 1 inch (about 25 mm). A third grinder can be used to grind the second waste material into grinds and/or crumbles having a length and/or diameter less than one inch (about 25 mm). The processing methods and procedures are advantageous to recycle waste material components into desirable byproducts.

Various techniques are provided in relation to flocculation and/or dewatering of thick fine tailings, with shear conditioning of flocculated tailings material in accordance with a pre-determined shearing parameter, such as the Camp Number. One example method of treating thick fine tailings including dispersing a flocculant into the thick fine tailings to form a flocculating mixture; shearing the flocculating mixture to increase yield stress and produce a flocculated mixture; shear conditioning the flocculated mixture to decrease the yield stress and break down flocs, the shear conditioning being performed in accordance with the pre-determined shearing parameter to produce conditioned flocculated material within a water release zone where release water separates from the conditioned flocculated material. The conditioned flocculated material can then be subjected to dewatering, for example by depositing, thickening or filtering. The design, construction and/or operation of a flocculation pipeline assembly can be facilitated.

The present disclosure provides a method of processing shell material. Shell material processed in accordance with the methods disclosed herein may be biodegradable and may further represent a new type of useful material. By way of example, the processed shell material may be useable as a material to make useful materials, items, objects and/or tools.

Silicon slags, which is a by-product of metallic silicon mill during producing metallurgical grade silicon, solar cell grade silicon and Ferro-silicon alloy. are processed according to the invention to small lumps and briquettes, being excellent deoxidizer for cast iron and steel in order to avoid either costly regeneration for the recovering of the valuable components or the total dumping of said silicon slags. The cost of iron and steelmaking can be reduced significantly. As an additional advantage, the particles of silicon slag in molten steel can absorb the tiny oxides from the deoxidizing reaction and purify the molten steel more quickly.

An apparatus for the production of items of clothing, which includes at least one shredder, at least one pulverizer, at least one mixer for the mixing of the powder that originates from the pulverizer with at least one other substance chosen preferably from a solvent, polyethylene glycol, and a polyether and organic binders, with consequent obtainment of a mixture. The apparatus also includes at least one extruder of the mixture, which is arranged on a movement unit with at least two axes, for the deposition of layers of the mixture on a predefined surface, with consequent provision of at least one portion of an item of clothing and the like according to a method of the type of additive manufacturing.

A formulation is described containing organic and non-organic ingredients that readily convert human, animal and bird excreta and/or biohazard into biodegradable and/or non-biodegradable gel or granules. Formulation comprises organic and/or inorganic ingredients, absorbent, biocide, binder, fragrance additive, anthelmintic, antiprotozoal, and bacterial culture. Formulation can be deployed in various forms or modes that may be placed in receptacles.

A formulation is described containing organic and non-organic ingredients that readily convert human, animal and bird excreta and/or biohazard into biodegradable and/or non-biodegradable gel or granules. Formulation comprises organic and/or inorganic ingredients, absorbent, biocide, binder, fragrance additive, anthelmintic, antiprotozoal, and bacterial culture. Formulation can be deployed in various forms or modes that may be placed in receptacles.

A curing agent for disposal of municipal solid waste incineration (MSWI) fly ash and a preparation method and use method thereof are provided. In the present disclosure, a loofah nanofiber crystal, a rice husk ash (RHA), sodium hydroxide, and water are adopted as raw materials to prepare the curing agent, and the curing agent can effectively realize the safe disposal and curing of heavy metals in an MSWI fly ash. The highest curing rates of the curing agent for heavy metals Pb.sup.2+, Zn.sup.2+, Cd.sup.2+, Cr.sup.3+, and Cu.sup.2+ can reach 99.7%, 99.4%, 99.5%, 98.7%, and 99.5%, respectively. The special three-dimensional (3D) cross-linked network structure of the loofah nanofiber crystal and the excellent physical and chemical adsorption properties and ion exchange capacity of the RHA are fully used in the curing agent of the present disclosure.