Kindly amend the Abstract, wherein underlining indicates additions and strikethrough indicates deletion, as follows:

An infant feeding bottle is provided that is convenient and easy to use. The bottle can include a formula reservoir, comprising sealed and sterilised formula for consumption by an infant; a teat, through which the formula from the formula reservoir may be consumed; and an exothermic self-heating element, configured to heat the formula in the formula reservoir upon activation thereof. The exothermic self-heating element includes one or more mixing elements, configured to assist in mixing elements of an exothermic reaction of the exothermic self-heating element.

Kindly amend the Abstract, wherein underlining indicates additions and strikethrough indicates deletion, as follows:

An infant feeding bottle is provided that is convenient and easy to use. The bottle can include a formula reservoir, comprising sealed and sterilised formula for consumption by an infant; a teat, through which the formula from the formula reservoir may be consumed; and an exothermic self-heating element, configured to heat the formula in the formula reservoir upon activation thereof. The exothermic self-heating element includes one or more mixing elements, configured to assist in mixing elements of an exothermic reaction of the exothermic self-heating element.

A food heating device having a heat pack containing heating agents that react chemically to release heat when come into contact with water, and a container for containing the heat pack; the container has a water capacity that allows the container to hold an amount of water capable of allowing the heat pack to chemically react with so that the heat pack releases heat to heat the food.

A food heating device having a heat pack containing heating agents that react chemically to release heat when come into contact with water, and a container for containing the heat pack; the container has a water capacity that allows the container to hold an amount of water capable of allowing the heat pack to chemically react with so that the heat pack releases heat to heat the food.

The formula of the flameless automatic food heating agent comprises 1 to 5 parts of aluminum powder, 3 to 10 parts of carbon powder, 5 to 25 parts of magnesium powder, 10 to 25 parts of iron powder and 1 to 5 parts of anticoagulant. The preparing of the flameless automatic food heating agent bags (3) comprises the following steps: placing two pieces of food heating agent bags (3) in two sides of a sealed food packaging (2) before putting into a water-proof heating bag (1); adding water into the water-proof heating bag (1) to let food heating agent bags (3) to absorb water; bending an opening side of the water-proof heating bag (1) to seal the opening side; vaporizing water in the water-proof heating bag (1); placing the water-proof heating bag (1) for 10 to 15 minutes; heating food in the sealed food packaging (2) to 60 C. to 80 C.

The formula of the flameless automatic food heating agent comprises 1 to 5 parts of aluminum powder, 3 to 10 parts of carbon powder, 5 to 25 parts of magnesium powder, 10 to 25 parts of iron powder and 1 to 5 parts of anticoagulant. The preparing of the flameless automatic food heating agent bags (3) comprises the following steps: placing two pieces of food heating agent bags (3) in two sides of a sealed food packaging (2) before putting into a water-proof heating bag (1); adding water into the water-proof heating bag (1) to let food heating agent bags (3) to absorb water; bending an opening side of the water-proof heating bag (1) to seal the opening side; vaporizing water in the water-proof heating bag (1); placing the water-proof heating bag (1) for 10 to 15 minutes; heating food in the sealed food packaging (2) to 60 C. to 80 C.

The present invention relates to a self-heating pouch for heating consumables and method of manufacture thereof. The self-heating pouch includes a flexible housing and a sealable cap. The flexible housing includes an internal pouch, an external pouch, and at least one frangible button. The internal pouch includes an inner surface and an outer surface. The inner surface of the internal pouch is configured to enclose the consumables. The external pouch is attached internally to the outer surface of the internal pouch. The at least one frangible button is included between the external pouch and the internal pouch. The at least one frangible button is configured to release a liquid to react with a heating agent and initiate heating of the consumables. The sealable cap is attached to top of the flexible housing and configured to dispense the consumables.

The present invention relates to a self-heating pouch for heating consumables and method of manufacture thereof. The self-heating pouch includes a flexible housing and a sealable cap. The flexible housing includes an internal pouch, an external pouch, and at least one frangible button. The internal pouch includes an inner surface and an outer surface. The inner surface of the internal pouch is configured to enclose the consumables. The external pouch is attached internally to the outer surface of the internal pouch. The at least one frangible button is included between the external pouch and the internal pouch. The at least one frangible button is configured to release a liquid to react with a heating agent and initiate heating of the consumables. The sealable cap is attached to top of the flexible housing and configured to dispense the consumables.

A simple integrated assemblage of components built around a modular solid state heater, and incorporating an intuitive consumer user interface (CUI), enables self-heating functionality to be applied in standard beverage cans. The CUI includes an actuation mechanism for user initiation of heating, as well as a novel means of breaching the can to access the heated beverage.

A simple integrated assemblage of components built around a modular solid state heater, and incorporating an intuitive consumer user interface (CUI), enables self-heating functionality to be applied in standard beverage cans. The CUI includes an actuation mechanism for user initiation of heating, as well as a novel means of breaching the can to access the heated beverage.