The invention provides for a method manufacturing artificial turf infill (602), wherein the method comprises providing (700) an initial composition (1120) comprising a granulate (1006), at least one type of pigment, and a fluid binding agent. The fluid binding agent comprises at least one type of polymer component. The method further comprises mixing (702) the initial composition; adding (704) water and a catalyst to the initial composition during the mixing of the initial composition to cure the fluid binding agent and the at least one type of pigment into an initial coating (200) of the granulate. The method further comprises providing (706) a subsequent composition (1122) comprising the granulate with the initial coating, the at least one type of pigment, and the fluid binding agent. The method further comprises mixing (708) the subsequent composition. The method further comprises adding (710) water and the catalyst to the subsequent composition during the mixing of the subsequent composition to cure the fluid binding agent and the at least one type of pigment into a subsequent coating (300) of the granulate. The method further comprises providing (712) the granulate with the subsequent coating as artificial turf infill.

The invention provides for a method manufacturing artificial turf infill (602), wherein the method comprises providing (700) an initial composition (1120) comprising a granulate (1006), at least one type of pigment, and a fluid binding agent. The fluid binding agent comprises at least one type of polymer component. The method further comprises mixing (702) the initial composition; adding (704) water and a catalyst to the initial composition during the mixing of the initial composition to cure the fluid binding agent and the at least one type of pigment into an initial coating (200) of the granulate. The method further comprises providing (706) a subsequent composition (1122) comprising the granulate with the initial coating, the at least one type of pigment, and the fluid binding agent. The method further comprises mixing (708) the subsequent composition. The method further comprises adding (710) water and the catalyst to the subsequent composition during the mixing of the subsequent composition to cure the fluid binding agent and the at least one type of pigment into a subsequent coating (300) of the granulate. The method further comprises providing (712) the granulate with the subsequent coating as artificial turf infill.

The present invention provides an extended release insecticide formulation, the formulation comprising: an insecticide on a substrate; a lipophilic wax, wherein the insecticide is incorporated into the wax forming a matrix; a release retarding polymer in the matrix; and a rate extending polymer embed the matrix. Methods of making the formulation and use of the formulation are also provided.

The present invention provides an extended release insecticide formulation, the formulation comprising: an insecticide on a substrate; a lipophilic wax, wherein the insecticide is incorporated into the wax forming a matrix; a release retarding polymer in the matrix; and a rate extending polymer embed the matrix. Methods of making the formulation and use of the formulation are also provided.

Tools and techniques for biochar method, systems, devices, and products are provided in accordance with various embodiments. For example, methods are provided in accordance with various embodiments that may include rubbing one or more objects with biochar. Rubbing the one or more objects with biochar may include: polishing one or more objects utilizing biochar; cleaning one or more objects utilizing biochar; grinding one or more objects utilizing biochar; scratching one or more objects utilizing biochar; and/or abrading one or more objects utilizing biochar. In some embodiments, polishing the one or more objects utilizing the biochar includes: combining water, the biochar, and the one or more objects; and/or tumbling the combined water, biochar, and one or more objects. The one or more objects may include one or more stones. The tumbling may occur for 72 hours or less. The tumbling may occur as a single step.

Tools and techniques for biochar method, systems, devices, and products are provided in accordance with various embodiments. For example, methods are provided in accordance with various embodiments that may include rubbing one or more objects with biochar. Rubbing the one or more objects with biochar may include: polishing one or more objects utilizing biochar; cleaning one or more objects utilizing biochar; grinding one or more objects utilizing biochar; scratching one or more objects utilizing biochar; and/or abrading one or more objects utilizing biochar. In some embodiments, polishing the one or more objects utilizing the biochar includes: combining water, the biochar, and the one or more objects; and/or tumbling the combined water, biochar, and one or more objects. The one or more objects may include one or more stones. The tumbling may occur for 72 hours or less. The tumbling may occur as a single step.

A method for capturing material extracted from biochar, the method comprising the steps of: (i) providing a biochar; (ii) contacting the biochar with a treating liquid, where the treating liquid causes the removal of solids from the pores and surface of the biochar, thereby creating a resulting solution comprised of the treating liquid and removed solids; and (iii) collecting the resulting solution.

A method for capturing material extracted from biochar, the method comprising the steps of: (i) providing a biochar; (ii) contacting the biochar with a treating liquid, where the treating liquid causes the removal of solids from the pores and surface of the biochar, thereby creating a resulting solution comprised of the treating liquid and removed solids; and (iii) collecting the resulting solution.

An apparatus for producing biobased carriers for dispersal of biological and chemical molecules includes a premixer having a first inlet, a first outlet, a cavity configured for receiving a wet coproduct and a binder through the first inlet, and a stirring apparatus within the cavity for premixing the wet coproduct and binder into a substantially homogeneous mixture; a high shear mixer having a housing, a drive apparatus and a high shear apparatus, the housing defining an opening, the drive apparatus being within the housing and for forcing the substantially homogeneous mixture from the premixer into the high shear apparatus, and the high shear apparatus including a rotor, a stator and a screen covering the opening and being for shear mixing the mixture including forcing the mixture through the screen and out of the housing in the form of nucleation enhanced particles; and an agglomerator having an interior chamber sized and configured to receive the nucleation enhanced particles from the high shear mixer and for transforming the nucleation enhanced particles into substantially spherical biomass pellets.

Agglomerated products formed from particulate materials and binder formulations having low molecular weight polymers (of 500 g/mol to 50,000 g/mol) in an aqueous or emulsion form, or having a blend of low molecular weight aqueous polymer and high molecular weight (of 500,000 g/mol to 50,000,000 g/mol) emulsion polymers, wherein the polymers are formed from water soluble ethylenically unsaturated monomers, or monomer blends, chosen from one or more of acrylic acid, acrylamide, maleic acid, allyl sulfonate, silanated and/or hydroxamated acrylamide, or 2-acrylamido-2-methylpropane sulfonic acid (AMPS), are disclosed herein as well as processes for agglomerating a particulate materials, and use of the binding agents for forming same.