A traditional method for making, pasteurizing and packaging preservative-free, fresh food product comprising chickpeas, such as hummus, that involves a continuous process in which the temperature does not deviate more than 50° C. from the cooking step until just prior to packaging. In one embodiment, the method comprises cooking the chickpeas from 110° C. to 125° C. while under pressure, which is followed by adding raw ingredients to the cooked chickpeas at a temperature ranging from 75° C. to 85° C., which is immediately followed by a pasteurization at approximately 75° C. Only after this pasteurization step is the temperature reduced in a multi-step cooling process. The as-made, fresh and preservative-free food product comprising chickpeas, such as hummus, is packaged into containers by transferring the finished food product that is maintained at a temperature ranging from 5° C. to 10° C. to a container, and vacuum sealing the container with a top sealing layer, wherein the packaged, fresh and preservative-free food product comprising chickpeas, such as hummus, exhibits total yeast and mold counts of less than 10 CFU/g at least 28 days after it is produced when stored at 2° C. to 8° C.

A traditional method for making, pasteurizing and packaging preservative-free, fresh food product comprising chickpeas, such as hummus that involves a continuous process in which the temperature does not deviate more than 50° C. from the cooking step until just prior to packaging. In one embodiment, the method comprises cooking the chickpeas from 110° C. to 125° C. while under pressure within the closed vessel, which is followed by adding raw ingredients to the cooked chickpeas at a temperature ranging from 75° C. to 85° C., which is immediately followed by a pasteurization at a temperature ranging from 70° C. to 80° C., such as approximately 75° C. Only after this pasteurization step is the temperature reduced in a multi-step cooling process. A fresh, preservative-free, fresh food product comprising chickpeas, such as hummus made according to the present method is also disclosed.

A process for making a simulated bacon product comprises a series of steps of mixing and processing ingredients, followed by shaping into loaves and cooking and slicing the cooked loaves, after which a topping sauce is added and slices are packed for distribution and sale.

The invention relates to a process for preparing a pea extract comprising fibres, the process comprising the following steps: (a) bringing shelled peas into contact with an aqueous solution in order to form an aqueous composition comprising peas; (b) leaving the peas to hydrate in said aqueous composition for at least 30 minutes and at most 15 hours; (c) grinding said peas in order to as a result obtain ground peas; and (d) fractionating said ground peas in order to obtain at least one pea extract comprising fibres. The invention also relates to a pea extract that can be obtained according to the process of the invention. The invention also relates to an edible composition comprising the pea extract according to the invention.

Methods of forming a gelatinous food product, forming a whitened food product, increasing viscosity, increasing water binding, emulsifying, or sweetening a food product, comprising combining paramylon from Euglena sp. with a food composition, to form the food product thereof. The disclosure also relates to methods of encapsulating an oil with paramylon, to form an encapsulated oil thereof.

A composition formed from chickpea flour and having improved mouthfeel and taste, includes dextrinized starch and a controlled concentration of certain volatiles. Methods of forming the composition include extruding a composition containing chickpea at a temperature and pressure such that, when the extrudate exits the extruder, at least one volatile component is expelled.

A MATZHU is prepared by using leaves of Gramineae (Graminae) and Bambusoideae plant as raw materials, and has a stable emerald color, and has an average powder particle size of 800 to 10,000 meshes, and has a total amount of dietary fiber of ≥60%, a content of lignin of ≥20% and a content of minerals of ≥7%, and comprises at least three or more bamboo leaf characteristic components, such as orientin, isoorientin, vitexin, isovitexin, adenosine, δ-hydroxylysine and p-coumaric acid. The method for the MATZHU preparation comprises, in turn, performing blanching and color protection, drying and superfine grinding the raw materials. By utilizing the thermal stability and the light stability of the MATZHU, the MATZHU may be used as a raw food material, a functional ingredient, or a dietary supplement.

The present disclosure relates to a process and composition of preparing and processing plant-based food products such as vegan food products, wherein plant protein and water is mixed in a defined ratio in a batch and fed into an extruder using a sausage filler, creating a system wherein air from the dough cannot leave the system and back into the feeding side. The dough is subjected to a high moisture extrusion process, wherein the air within the dough is homogeneously distributed as fine air bubbles imparting a texture and lighter color similar to a meat-based food color.

A plant-based food product and methods of producing thereof. The plant-based food product may include a gel matrix formed from about 20% to 80% w/w of a liquid and about 15% to 50% w/w of a flour, a plant-derived protein or a combination thereof. The flour and/or plant-derived protein may be pretreated by impregnation and enriched with an additive, an amino acid, a peptide, a protein or a dietary supplement. The gel matrix may be formed by mixing the components, optionally pressurizing the mixture within a cooking container and heating at a maintained temperature to form a gel matrix to provide a plant-based food product that mimics the characteristics of meat fat. The gel matrix may be incorporated into plant-based meats or other non-meat base products as a visual, taste and/or mouthfeel mimicker of fat.

A MATZHU is prepared by using leaves of Gramineae (Graminae) and Bambusoideae plant as raw materials. The MATZHU has a stable emerald color and an average powder particle size of 800 to 10,000 meshes. The MATZHU also has a total amount of dietary fiber of ≥60%, a content of lignin of ≥20% and a content of minerals of ≥7%. The MATZHU includes at least three or more bamboo leaf characteristic components, such as orientin, isoorientin, vitexin, isovitexin, adenosine, δ-hydroxylysine and p-coumaric acid. The method for the MATZHU preparation includes, in turn, performing blanching and color protection, drying and superfine grinding the raw materials. By utilizing the thermal stability and the light stability of the MATZHU, the MATZHU may be used as a raw food material, a functional ingredient, or a dietary supplement.