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 method is disclosed for cooking food in an oven cavity, where air is the cooking medium. Using a predetermined cooking algorithm, a temperature of the oven cavity is adjusted in a plurality of temperature and/or time regulated cooking stages. An initial pre-heat stage targets a first target temperature including a user-selected oven cavity temperature plus a first offset. A subsequent post-heat stage targets a second target temperature including the user-selected temperature plus a second offset different from the first offset. Two or more heating elements and a fan are operated during the post-heat stage according to a duty cycle controlled via a hysteresis temperature control algorithm or a PID temperature control algorithm.

A connected oven, including a set of in-cavity sensors and a processor configured to automatically identify foodstuff within the cooking cavity, based on the sensor measurements; and automatically operate the heating element based on the foodstuff identity.

The present invention relates to a method for processing ginseng at an ultra high pressure, and more particularly, to a method for processing ginseng that is capable of processing the ginseng, which is immersed and packed, at an ultra high pressure. The method for processing ginseng includes the steps of: preparing washed ginseng; liquid-packaging the ginseng into a pouch; and treating the liquid-packaged ginseng with ultra-high pressure at a pressure of 550 to 600 MPa for 30 seconds to 2 minutes.

The efficiency of a device for cooling or heating objects on a belt that moves through a path of a helix, in which gaseous cooling or heating medium is circulated within the device, is improved by positioning fans that circulate the cooling or heating medium so that the fans are distanced from the top of the helix.

Disclosed herein is a cooking system for cooking food, the system including a housing having a hollow interior, a lid movable relative to the housing, at least one heating element associated with one of the housing and the lid, wherein the cooking system is operable in a plurality of modes including a conductive cooking mode and a convective cooking mode, wherein in the conductive cooking mode the cooking system is operable as a conductive cooker and in the convective cooking mode the cooking system is operable as a convection cooker.

Soft cooked egg products having a runny yolk are prepared by removing the eggs from their shells; cooking so that the egg white has a temperature of no more than about 175° F. and the egg yolk has a temperature of no more than about 150° F.; cooling the egg to an internal temperature of 75° F. or less; sealing the egg in a package; and pasteurizing. Alternatively the shell-less eggs are packaged sealed in a package and cooked so that the egg white has a temperature of no more than about 175° F. and the egg yolk has an internal temperature of no more than about 150° F. The processes are carried out under processing conditions such that the pasteurized, cooked, packaged eggs have runny yolks. Products made by this process are also described.

A method is disclosed for cooking food in an oven cavity, where air is the cooking medium. Using a predetermined cooking algorithm, a temperature of the oven cavity is adjusted in a plurality of temperature and/or time regulated cooking stages. An initial pre-heat stage targets a first target temperature including a user-selected oven cavity temperature plus a first offset. A subsequent post-heat stage targets a second target temperature including the user-selected temperature plus a second offset different from the first offset. Two or more heating elements and a fan are operated during the post-heat stage according to a duty cycle controlled via a hysteresis temperature control algorithm or a PID temperature control algorithm.

An oven and a method of controlling the same are described. The oven is configured to perform a heat stage for implementing an air-fry. In this case, the oven may uniformly cook a cooking ingredient to be crispy by driving a convection fan earlier than a convection heater in at least some heating sections, adjusting a driving time of each of a broil heater and a convection heater and revolutions per minute (RPM) of the convection fan, and correcting a target temperature of a cooking chamber to be higher than a set temperature input by a user.