The present invention encompasses edible carriers for foods that are soft but still hold a preformed shape. Specifically encompassed are soft shaped tortilla products that can be used to hold food fillings. Exemplary shapes and sizes are provided for the products. Also encompassed are methods of making, packaging, and using the products.

A method for using a baking tray includes providing a baking tray, the baking tray comprising a baking cup formed in a baking tray body, the baking cup defining a baking cavity and an aperture formed through the baking cup; inserting a dough into the baking cavity; and baking the dough in the baking tray to form a baked good.

A milk food product is provided that when mixed with baby food and given regularly to a baby will reduce the likelihood of the baby developing a food allergy. The milk food product is produced by taking milk and mixing or whipping the milk with other ingredients such as rice, tapioca, wheat, corn, nut flours, soy flour, or bean flour. The resulting batter is then baked in order to produce a cake-like product. The resulting cake is then dried in order to remove substantially all moisture. The dried cake is then ground or milled into a powder.

A milk food product is provided that when mixed with baby food and given regularly to a baby will reduce the likelihood of the baby developing a food allergy. The milk food product is produced by taking milk and mixing or whipping the milk with other ingredients such as rice, tapioca, wheat, corn, nut flours, soy flour, or bean flour. The resulting batter is then baked in order to produce a cake-like product. The resulting cake is then dried in order to remove substantially all moisture. The dried cake is then ground or milled into a powder.

A food-preparation apparatus for forming and baking a food product (5) from a dough portion (2) in a capsule (12) includes a housing (3) having a capsule-handling device (4) for opening and/or emptying the capsule (12), an upper plate (14), and a lower plate (11), arranged in the housing (3). The lower plate can be adjusted in a guide device between a receiving position (A) for receiving the dough portion (2) from the capsule (12), a position of interaction (W) for interacting with the upper plate (14) for baking and/or forming the dough portion, and an emptying position (E) wherein the lower plate (11) is inclined relative to a base surface (46) of the food-preparation apparatus. The guide device has a diverter (20) with a diverter element (21), which can be switched between at least two switching positions for predetermining an adjustment distance of the lower plate (11) in the guide device, wherein the diverter element (21) is assigned an electromotive drive (M) for switching the diverter element (21) automatically.

A food-preparation apparatus for forming and baking a food product (5) from a dough portion (2) in a capsule (12) includes a housing (3) having a capsule-handling device (4) for opening and/or emptying the capsule (12), an upper plate (14), and a lower plate (11), arranged in the housing (3). The lower plate can be adjusted in a guide device between a receiving position (A) for receiving the dough portion (2) from the capsule (12), a position of interaction (W) for interacting with the upper plate (14) for baking and/or forming the dough portion, and an emptying position (E) wherein the lower plate (11) is inclined relative to a base surface (46) of the food-preparation apparatus. The guide device has a diverter (20) with a diverter element (21), which can be switched between at least two switching positions for predetermining an adjustment distance of the lower plate (11) in the guide device, wherein the diverter element (21) is assigned an electromotive drive (M) for switching the diverter element (21) automatically.

The present disclosure discloses a microwave processing method for food made of flour and rice fermented with sourdough and belongs to the technical field of food processing. It comprises: adding a sourdough to the raw material to prepare a steamed cake batter; fermenting the batter under the dielectric constant of 20.sup.˜34, the loss factor of 6.3.sup.˜9.0, the moisture content of 45.sup.˜55% and the water activity of 0.920.sup.˜0.980; and using microwave heating to obtain the microwave-steamed cake. Due to the regulating effect of the sourdough fermentation on the dielectric properties of the food material, it solves the problems of hard core, textual firmness and toughness, dryness and weak flavor caused by fast and uneven microwave heating without adding food additives; meanwhile, the sourdough fermentation process is optimized and the DY and additive amount of the sourdough are controlled to obtain the microwave-steamed cake with larger specific volume, lower hardness, more fine and uniform pores and better taste.

The present disclosure discloses a microwave processing method for food made of flour and rice fermented with sourdough and belongs to the technical field of food processing. It comprises: adding a sourdough to the raw material to prepare a steamed cake batter; fermenting the batter under the dielectric constant of 20.sup.˜34, the loss factor of 6.3.sup.˜9.0, the moisture content of 45.sup.˜55% and the water activity of 0.920.sup.˜0.980; and using microwave heating to obtain the microwave-steamed cake. Due to the regulating effect of the sourdough fermentation on the dielectric properties of the food material, it solves the problems of hard core, textual firmness and toughness, dryness and weak flavor caused by fast and uneven microwave heating without adding food additives; meanwhile, the sourdough fermentation process is optimized and the DY and additive amount of the sourdough are controlled to obtain the microwave-steamed cake with larger specific volume, lower hardness, more fine and uniform pores and better taste.

The method of baking bread disclosed herein provides a new super-thin tin bread, technology, and equipment for baking the super-thin bread. The thickness of such bread is roughly equal the thickness of pieces of bread cut off from a loaf of bread. Pieces of such bread have the same crust on all sides except one, and do not crumble. It is simple and quick to cook. Sandwiches prepared from the thin bread contain a minimum amount of bread. Super-thin bread bakes several times faster than a regular loaf of the same weight. This translates into sizeable savings as less electricity, fuel, and labor will be required. Cooling, freezing, defrosting and baking of super-thin bread to perfection will also become faster and more efficient. Super-thin bread can be quickly baked at home in specialized toasters and in mini-bakeries, in automatic lines.

The method of baking bread disclosed herein provides a new super-thin tin bread, technology, and equipment for baking the super-thin bread. The thickness of such bread is roughly equal the thickness of pieces of bread cut off from a loaf of bread. Pieces of such bread have the same crust on all sides except one, and do not crumble. It is simple and quick to cook. Sandwiches prepared from the thin bread contain a minimum amount of bread. Super-thin bread bakes several times faster than a regular loaf of the same weight. This translates into sizeable savings as less electricity, fuel, and labor will be required. Cooling, freezing, defrosting and baking of super-thin bread to perfection will also become faster and more efficient. Super-thin bread can be quickly baked at home in specialized toasters and in mini-bakeries, in automatic lines.