A transportable device for heating food is provided. The device includes a container for receiving the food, a heating compartment, which is thermally coupled to the container by way of a heat-conducting wall, calcium oxide being present in the heating compartment, and a liquid supply unit including a liquid reservoir chamber, in which a water-containing liquid is present, wherein the liquid supply unit is designed so that, based on actuation on the part of a user, the water-containing liquid is brought into contact with the calcium oxide, or the substance mixture including calcium oxide. The water-containing liquid has an elevated dynamic viscosity, in comparison with water, of between 2 and 30000 mPas, and preferably between 50 and 1000 mPas or, alternatively, the liquid supply unit comprises a water retention agent. In both alternatives, the reaction between calcium oxide and water is damped and delayed.

A transportable device for heating food is provided. The device includes a container for receiving the food, a heating compartment, which is thermally coupled to the container by way of a heat-conducting wall, calcium oxide being present in the heating compartment, and a liquid supply unit including a liquid reservoir chamber, in which a water-containing liquid is present, wherein the liquid supply unit is designed so that, based on actuation on the part of a user, the water-containing liquid is brought into contact with the calcium oxide, or the substance mixture including calcium oxide. The water-containing liquid has an elevated dynamic viscosity, in comparison with water, of between 2 and 30000 mPas, and preferably between 50 and 1000 mPas or, alternatively, the liquid supply unit comprises a water retention agent. In both alternatives, the reaction between calcium oxide and water is damped and delayed.

A portable wild game cooker is provided. The cooker utilizes a FRH heating element, a pre-packaged seasoning pouch and a cooking sleeve to provide for immediate cooking of wild game after a wild game harvest event. The cooker allows for fast, clean, and safe cooking of wild game with minimal mess and without the need for cumbersome cooking hardware. The wild game cooker enhances the overall experience of the outdoor enthusiast.

A flexible pouch for heating articles includes a pair of panels forming a compartment and a pair of heating units which are disposed on either side of the compartment to heat the articles within the compartment. Seal portions are formed adjacent side edges for forming a holding area to be grasped by the hand of the user.

A flexible pouch for heating articles includes a pair of panels forming a compartment and a pair of heating units which are disposed on either side of the compartment to heat the articles within the compartment. Seal portions are formed adjacent side edges for forming a holding area to be grasped by the hand of the user.

A unibody heater module is disclosed having an end cap and a base, wherein the base of the heater canister is filled with a solid-state reaction mixture. Twist-to-activate heater starting functionality is embedded directly into the unibody heater module. A reactive starting pellet is embedded into the upper surface of the compacted solid-state reaction mix. The plunger head of a firing pin passing through the center of an internal metal spacer is held a small distance away from the upper surface of the starting pellet. When the user activated CUI is rotated, the base of a cam pushes on one end of a firing pin protruding through a small hole in the end cap of the unibody heater module. The opposite end of the plunger plunges into the starter pellet so as to initiate heater activation in response to operation of the CUI by the user.

A system and method for generating an incubated bacteria solution by heating a nutrient germinant composition and bacteria, including at least one species in spore form, to a preferred temperature a range of 35-50 C. for 2-60 minutes using exothermic chemical reaction heat. An incubated bacteria solution is preferably generated at or near a point-of-use in an aquaculture, agriculture, wastewater, or environmental remediation application. The nutrient-germinant composition comprises L-amino acids, optionally D-glucose and/or D-fructose, a buffer, an industrial preservative, and may include bacteria spores (preferably of one or more Bacillus species) or they may be separately combined for incubation. A first chemical contained in a pouch is activated by contact with a second chemical, water, or air in a flameless heater to initiate exothermic reaction to provide incubation heat. A potable, single-use incubation bag is configured to hold the flameless heater and a container of nutrient germinant composition and spores.

An expandable, exothermic gel-forming composition that is predominately useful in the consumer products and medical industries. More particularly, it relates to the use of expandable particulate exothermic gel-forming compositions with efficient and long-lasting heat production for heating surfaces and objects without the need for electricity or combustible fuel.

An expandable, exothermic gel-forming composition that is predominately useful in the consumer products and medical industries. More particularly, it relates to the use of expandable particulate exothermic gel-forming compositions with efficient and long-lasting heat production for heating surfaces and objects without the need for electricity or combustible fuel.

A self-heating assembly includes a product container for holding a product to be heated and a heater container coupled to the product container. There is a reaction space between the product container and the heater container. There is a support structure (made, for example, of open cell foam) in the reaction space and a granular second reactant distributed throughout the support structure. There is a liquid first reactant in the reaction space. A frangible membrane is configured so that, when intact, it separates the liquid first reactant from the support structure and from the granular second reactant. The liquid first reactant and the granular second reactant are adapted to exothermically react upon contact with one another. The support structure is permeable to the liquid first reactant and is configured to support and substantially maintain the distribution of the granular second reactant throughout the support structure before and during the exothermic chemical reaction.