A system and method for storing, preserving and cooking meals using the sous-vide technique. The system and method of the present invention is designed to automatically cook, upon request a meal having various ingredients by immersing bagged food in temperature-controlled liquid. The cooking time may be manually or automatically programmed from downloaded cooking direction associated with the food. The cooking request may be given by a user from the physical apparatus or using a mobile device application.

A system and method for storing, preserving and cooking meals using the sous-vide technique. The system and method of the present invention is designed to automatically cook, upon request a meal having various ingredients by immersing bagged food in temperature-controlled liquid. The cooking time may be manually or automatically programmed from downloaded cooking direction associated with the food. The cooking request may be given by a user from the physical apparatus or using a mobile device application.

Disclosed is a curcumin nanoparticle, including curcumin as core material and a wall material, where a weight ratio of the curcumin to the wall material is (5.5-7.5):100, and the wall material includes gum arabic and zein in a weight ratio of (1-5):5. The disclosure further provides a method of making the curcumin nanoparticle and a curcumin beverage containing the curcumin nanoparticle.

The present invention relates to a process for manufacturing edible mushrooms in sauce, which comprises: a) starting with previously processed fresh raw material, blanching said raw material in water; b) milling the raw material to obtain a homogenate; c) pouring edible vegetable oil into a steam-heated pressure vessel and raising the temperature of the vegetable oil; d) adding the homogenate to the container with heated vegetable oil and stirring the homogenate/oil mixture; e) adding powdered ingredients to the previous mixture; f) adding sliced edible mushroom to the mixture from the previous step until the mixture boils; g) once said boiling temperature has been reached, shutting off the steam supply to the steam-heated pressure vessel.

The present disclosure relates to a terminally heat-sterilized ready-to-use parenteral nutrition formulation comprising all macronutrients and micronutrients required to meet the clinical guidelines for parenteral nutrition, wherein all said micronutrients and macronutrients are provided in one multi-chamber bag (MCB). The disclosure is also directed to a parenteral nutrition formulation comprising all such macronutrients and micronutrients. More specifically, the present disclosure is directed to a MCB comprising at least five chambers containing a carbohydrate formulation in a first chamber, an amino acid formulation in a second chamber, a lipid formulation in a third chamber, a fourth chamber comprising a vitamin formulation and a fifth chamber comprising a trace element formulation, wherein the carbohydrate formulation, amino acid formulation and/or the lipid formulation may also contain certain vitamins and certain trace elements that can be stably accommodated therein.

The present disclosure relates to a terminally heat-sterilized ready-to-use parenteral nutrition formulation comprising all macronutrients and micronutrients required to meet the clinical guidelines for parenteral nutrition, wherein all said micronutrients and macronutrients are provided in one multi-chamber bag (MCB). The disclosure is also directed to a parenteral nutrition formulation comprising all such macronutrients and micronutrients. More specifically, the present disclosure is directed to a MCB comprising at least five chambers containing a carbohydrate formulation in a first chamber, an amino acid formulation in a second chamber, a lipid formulation in a third chamber, a fourth chamber comprising a vitamin formulation and a fifth chamber comprising a trace element formulation, wherein the carbohydrate formulation, amino acid formulation and/or the lipid formulation may also contain certain vitamins and certain trace elements that can be stably accommodated therein.

A measuring system for automatically determining and/or monitoring the quality of a liquid or viscous foodstuff, including a housing with an interior space for a product container for the foodstuff, the product container has a product space for the foodstuff and a lid provided with a probe with a thermometer, a heating and cooling device for the interior space, a sensor device for determining a non-temperature quality-related parameter value of the foodstuff, and a control unit designed to control the measuring system, measure, store, process and/or export the measured parameter values, and to control the heating and/or the cooling system according to a desired time-temperature program. The cooling system includes a cold buffer, a cooler for the cold buffer, and a separate refrigerant circuit. The cold buffer includes a buffer holder with a phase-transition material, wherein the refrigerant circuit includes a cooling circuit with a pump.

A measuring system for automatically determining and/or monitoring the quality of a liquid or viscous foodstuff, including a housing with an interior space for a product container for the foodstuff, the product container has a product space for the foodstuff and a lid provided with a probe with a thermometer, a heating and cooling device for the interior space, a sensor device for determining a non-temperature quality-related parameter value of the foodstuff, and a control unit designed to control the measuring system, measure, store, process and/or export the measured parameter values, and to control the heating and/or the cooling system according to a desired time-temperature program. The cooling system includes a cold buffer, a cooler for the cold buffer, and a separate refrigerant circuit. The cold buffer includes a buffer holder with a phase-transition material, wherein the refrigerant circuit includes a cooling circuit with a pump.

The present invention relates to a method for producing and preserving a semimoist animal feed, it being distinguished by the fact that it comprises the steps of drying and preservation by thermal treatment and pressure treatment of the nonperishable semimoist animal feed packaged in a packaging unit. In a further aspect, the present invention is directed to a thus obtainable semimoist animal feed packaged in a substantially gas-tight packaging unit having improved storage properties, especially storage stability. Lastly, sales units comprising multiple packaging units, optionally detachable from one another, containing the semimoist animal feed are provided.

A recirculation circuit for a processing vessel is configured to process a load with a process fluid. The recirculation circuit includes a first circuit portion configured to recirculate a first portion of the process fluid through the vessel. The first circuit portion includes a first pump having a first flow rate and a first output pressure and a heat exchanger in fluid communication with the first pump. A second circuit portion is configured to recirculate a second portion of the process fluid through the vessel. The second circuit portion includes a second pump having a second flow rate higher than the first flow rate and a second output pressure lower than the first output pressure.