Abstract: The present invention is directed to polyamide recovery from domestic or commercial waste. In particular, a method of polyamide recovery from domestic or commercial waste, via a selective dissolution procedure, using a methanol-calcium chloride solvent system, that isolates and recovers the polyamide at a particle size range that is particularly suitable for enzymatic depolymerization.

Abstract: Methods are provided for producing bio-oil polyols, alkoxylating bio-oil polyols to provide polyols, and for employing the alkoxylated bio-oil polyols for making polymers or copolymers of polyesters or polyurethanes.

Abstract: Methods are provided for producing bio-oil polyols, alkoxylating bio-oil polyols to provide polyols, and for employing the alkoxylated bio-oil polyols for making polymers or copolymers of polyesters or polyurethanes.

Abstract: Methods are provided for producing bio-oil polyols, alkoxylating bio-oil polyols to provide polyols, and for employing the alkoxylated bio-oil polyols for making polymers or copolymers of polyesters or polyurethanes.

Abstract: Methods are provided for producing bio-oil polyols, alkoxylating bio-oil polyols to provide polyols, and for employing the alkoxylated bio-oil polyols for making polymers or copolymers of polyesters or polyurethanes.

Abstract: Rotary motion devices (10) are provided. In one embodiment, the rotary motion devices (10) may comprise: a mass (12); a circumferential component (14); a plurality of spokes (16) connecting the mass (12) to the circumferential component (14), at least one of the spokes (16) comprising an electroactive polymer, wherein: the at least one spoke (16) has at least one input electrode and is configured to deflect upon application of an electrical potential across the at least one input electrode, and the rotary motion device (10) is configured such that deflection of the at least one spoke (16) causes the mass (12) to move, thereby causing the rotary motion device (10) to become off balance with respect to gravity, and rotate.

Abstract: Disclosed is a microwavable heating element and thermal storage composition for the controlled storage and release of thermal energy to a thermal mass. The microwavable heating element can be used in conjunction with a warming trivet. One disclosed warming trivet includes a housing, a heating element arranged within the housing and made of a matrix material and a microwave susceptor suspended within the matrix material, and an insulation layer disposed between the heating element and the housing, the insulation layer being configured to insulate the housing from thermal energy emitted by the heating element.

Abstract: Rotary motion devices (10) are provided. In one embodiment, the rotary motion devices (10) may comprise: a mass (12); a circumferential component (14); a plurality of spokes (16) connecting the mass (12) to the circumferential component (14), at least one of the spokes (16) comprising an electroactive polymer, wherein: the at least one spoke (16) has at least one input electrode and is configured to deflect upon application of an electrical potential across the at least one input electrode, and the rotary motion device (10) is configured such that deflection of the at least one spoke (16) causes the mass (12) to move, thereby causing the rotary motion device (10) to become off balance with respect to gravity, and rotate.

Abstract: A method of seamlessly combining best practices in information technology delivery (ITIQ) with those of organizational effectiveness (OE) strategy to improve the overall success rate in delivering information technology projects to clients.