The present disclosure features dried vegetable noodles having an increased shelf life and methods of making dehydrated vegetable noodles. The noodles are dry, shelf stable cut vegetable noodles (cut from whole produce, not extruded) and are lower in carbohydrate calories and higher in nutritional value than traditional grain-based noodles. The process results in a food safe, extended shelf stable singularized noodle that is nutritious, convenient and versatile.

The present invention relates to an air-drying plant for air drying cut-up food. The proposed plant consists of a conveyor (10) for cut-up food (1) defining a conveying surface (11), a plurality of blowing conduits (20) with blowing openings (21) channeling a treated airflow at a speed of treatment with a controlled temperature comprised between 4° C. and 60° C. and a controlled humidity; wherein the conveyor includes air treatment segments (12) with conveying surfaces (11) facing and adjacent to said blowing openings (21), said treated airflow being channeled against said conveying surface (11) in an upward or downward direction; and wherein the conveyor (10) also includes idle segments (13) intercalated between said air treatment segments (12), the conveying surface (11) of which is not facing the blowing openings (21), nor is it subjected to an airflow.

An automated, unmanned continuous system (200) for packaging flowable food products at elevated temperatures and pressures includes an upstream thermal processing station (202) to heat the food products and direct the heated food products to a pressurized unmanned filling station (204), whereat containers (242) are filled with the heated food products within a pressurized housing (232), and then transported to a pressurized and unmanned sealing station (206) where the containers are sealed with a lid or cover (283) within a pressurized housing (282). Thereafter, the filled and sealed containers (242) are routed from the pressurized housing (282) through a pressurized transfer tube or passageway (208) for further processing at a downstream thermal processing station (210).

A system and process for destroying C. Botulinum spores in ready to drink beverages is presented. The system includes a product tank receives ready to drink beverage. The product tank is fluidly coupled to a first heat exchanger for heating the beverage to a kill temperature using a closed loop counter current process. The heated beverage is passed through one or more hold tubes to maintain the kill temperature for a minimum hold time resulting in thermally pasteurizing the beverage. The thermally pasteurized beverage is passed through a second heat exchanger for cooling the beverage down to a desired packaging temperature using a closed loop counter current process. The cooled beverage is then placed in a feed tank ready for packaging. A distribution container is filled with the cooled beverage from the feed tank and the container is sealed. The sealed distribution container is then subjected to high pressure processing.

An oven has a first conveyor, a first burner that directs heat toward the first conveyor from above the first conveyor, and a second burner that directs heat toward the first conveyor from below the first conveyor. A method includes providing foodstuff on a conveyor, exposing the foodstuff to heat directed toward the foodstuff from above the conveyor, and exposing the foodstuff to heat directed toward the foodstuff from below the conveyor. Another oven has a first conveyor and first conveyor insulators that surround the first conveyor and define a first zone. Another method includes introducing foodstuff to a first conveyor belt within a first insulated zone, introducing heat into the first insulated zone, and retaining a portion of the heat within the first insulated zone. Another oven has an insulated cooking zone that closely envelopes a cooking path and an insulated oven zone that substantially envelopes the cooking zone.

An apparatus and method are provided for the industrial manufacture of bakery products, such as long or elongated breads, rolls, baguettes, Parisian breads, round loaves. The apparatus includes a conveyor for conveying at least one piece of dough on a conveying surface in a transport direction, a substrate which is arranged above said conveyor. The substrate includes a contact surface at a side facing the conveyor. The apparatus is configured for providing a relative movement between the contact surface and the conveying surface. The contact surface is configured for touching an upper side of said at least one piece of dough on said conveying surface. And the apparatus further includes a heating device configured for heating at least a part of a circumference of the at least one piece of dough facing the contact surface for forming a film on said part of the circumference.

An oven has a first conveyor, a first burner that directs heat toward the first conveyor from above the first conveyor, and a second burner that directs heat toward the first conveyor from below the first conveyor. A method includes providing foodstuff on a conveyor, exposing the foodstuff to heat directed toward the foodstuff from above the conveyor, and exposing the foodstuff to heat directed toward the foodstuff from below the conveyor. Another oven has a first conveyor and first conveyor insulators that surround the first conveyor and define a first zone. Another method includes introducing foodstuff to a first conveyor belt within a first insulated zone, introducing heat into the first insulated zone, and retaining a portion of the heat within the first insulated zone. Another oven has an insulated cooking zone that closely envelopes a cooking path and an insulated oven zone that substantially envelopes the cooking zone.

An oven has a first conveyor, a first burner that directs heat toward the first conveyor from above the first conveyor, and a second burner that directs heat toward the first conveyor from below the first conveyor. A method includes providing foodstuff on a conveyor, exposing the foodstuff to heat directed toward the foodstuff from above the conveyor, and exposing the foodstuff to heat directed toward the foodstuff from below the conveyor. Another oven has a first conveyor and first conveyor insulators that surround the first conveyor and define a first zone. Another method includes introducing foodstuff to a first conveyor belt within a first insulated zone, introducing heat into the first insulated zone, and retaining a portion of the heat within the first insulated zone. Another oven has an insulated cooking zone that closely envelopes a cooking path and an insulated oven zone that substantially envelopes the cooking zone.

Embodiments herein relate to one or more methods comprising heating of a kava product; pressurizing the kava product; electrically pulsing the kava product; homogenizing the kava product; cooling the kava product; and packaging of the kava product; wherein the method is configured to stabilize the kava product against microbiological decomposition.

A method for preparing a substantially pasteurized and/or sterilized food product; the method, which can be used to produce pasta sauces or soups, comprises: a cooking step, during which a base of the food product is obtained by thermally treating a first component at a temperature exceeding 30° C.; a mixing step, during which said base and a second, substantially solid component are mixed together so as to obtain a mixture; and an ohmic treatment step, during which said mixture is subjected to an ohmic treatment so as to obtain the substantially pasteurized and/or sterilized food product.