Abstract: The invention relates to a system (1) and a method for pasteurizing foods packed in closed containers (2). The containers (2) are supplied with a processing liquid (11) in at least one heating zone (5,6), at least one pasteurization zone (7, 8), and at least one cooling zone (9, 10). In order to cool and heat the processing liquid (11) as needed, a coolant (23) is cooled by means of a heat pump (22) in a cooling circuit (20), and a heating medium (33) is heated by means of the heat pump (22) in a heating circuit via a respective heat exchanger (19, 30) in each case. In order to provide cooling energy, the cooled coolant (23) is introduced into a lower end region of a cold buffer store (24), and in order to provide heating energy the heated heating medium (33) is introduced into an upper end region of a heat buffer store (35).

Abstract: Systems, methods, and non-transitory, machine-readable media for extracting railway fasteners and adjusting railway anchors are disclosed. A tie plate manipulator may be slidably coupled with a frame assembly and may include tie plate tools in an opposing arrangement and slidably coupled with a support framework. A fastener extractor may include fastener-extracting arms and pivot joints pivotably coupling the fastener-extracting arms with a subassembly. The fastener extractor may be slidably coupled with the frame assembly so that at least part of the fastener extractor is disposed over the tie plate manipulator. The fastener extractor may be coupled with the tie plate manipulator at least in part with a cylinder system. Each fastener-extracting arm may be adjustable to selectively engage and extract a railway fastener. The tie plate manipulator may be operable to engage and adjust a tie plate on the railway tie with the pair of tie plate tools.

Abstract: Disclosed are methods for inhibiting corrosion of metals in contact with heated water or heated aqueous solutions during, for example, food and beverage packaging operations including, for example, cooking, pasteurization and/or sterilization through the use of one or more stannous salts and/or reducing agents.

Abstract: A food processing apparatus includes a tank having an inlet end and a discharge end and at least one baffle divides the tank into a first compartment and a second compartment, wherein a temperature of the first compartment is greater than a temperature of the second compartment. A first drum is rotatably mounted within the first compartment of the tank such that a heat transfer medium contained in the first compartment of the tank will enter the first drum and a second drum is rotatably mounted within the second compartment of the tank such that a cool transfer medium contained in the second compartment of the tank will enter the second drum. A food product transfer device transfers food product from the first drum to the second drum.

Abstract: This invention relates to a method and a device for thermally treating flour, especially middlings, for hygienic purposes. The device includes modules which are a first, heatable batch mixer (4) with a pre-mounted depot (1). The batch mixer is connected to a drier/cooler (8) via a lock-like flap system (3). A second batch mixer (12) includes a device (14) for adding additives and a discharge device is mounted behind an additional flap system (11) that is mounted behind the drier/cooler (8).

Abstract: The proposed installation comprises a plurality of carriages which pass in succession from a product loading station (3) to a product unloading station (15) in succession via an inlet lock (10), a sterilizing tunnel (11), a transfer lock (12), a cooling tunnel (13), and an outlet lock (14). The superheated water of the sterilizing tunnel (11) and the cooling water of the cooling tunnel (13) are maintained at a pressure P1 greater than the pressure that exists inside the packages contained in the carriages during sterilization. The sterilizing tunnel (11) and the cooling tunnel (13) preferably constitute an assembly having an even number of superposed segments, with the carriages being caused to travel along the tunnels by linear magnetic couplers. The installation is adapted to sterilizing products contained in flexible packages.

Abstract: An energy and water saving pasteuriser capable of maintaining a stable temperature distribution pattern even when transfer work are interrupted during the operation, or a tunnel type refrigerator (10) allowing hot work such as bottles and cans filled with the products sterilized at a high temperature of generally 75° C. to allow temperature of generally 25° C., wherein plural cooling vessels (11a, 12a, 12b, 12c, 12d, 13a, 13b) are disposed in a row from the upstream side to the downstream side so as to form a first cooling region (11), an intermediate cooling region (12), and a final cooling region (13), an adsorption freezing machine (19) is installed between the first cooling region (11) and final cooling region (13), and a cooling tower (20) is installed in the intermediate cooling region (12).

Abstract: The invention provides a rotary processor which uses a linear motion detector to measure the deflection of the rotary processor as the rotary processor is heated. The linear motion detector measures the deflection of the rotary processor to prevent damage caused by excessive vessel deflection. The linear motion detector is placed to measure deflection near the center of a rotary processor.

Abstract: The invention relates to an apparatus for the sterilization during the filling of preferably liquid foodstuffs into packaging containers, having a preheating zone (A), a sterilizing zone (B), a drying zone (C), a filling zone (D) and a closure zone (E), in that the period during which the individual zones are acted upon with a sterilizing agent can be shortend and that the quantity of the sterilizing agent to be used can be minimized. In addition, a simple construction is desirable, so that the expenditure always required for cleaning and maintenance is also minimized. This is solved by the features that the individual zones (A, B, C, D, E) are combined into an overall space and closed in the upward direction by a single hood into which the required supply elements and lines (2, 3, 4, 5) are integrated.

Abstract: Three-dimensional food products such as crackers, cookies, puffed snacks, puffable glassy half-products, pet foods, pasta, confections such as chewing gum, and ready-to-eat cereals are produced on a mass production basis by feeding a dough or other food composition to a plurality of dies which shape it into ropes. The shaped extrudate ropes obtained from each die are cut by a plurality of first blades which pass across only a portion of each of the orifices of the dies to partially cut each of the shaped extrudate ropes. A plurality of second blades pass across the entire orifice of each of the dies to completely cut each of the partially cut extrudate ropes into individual pieces. The use of a multi-port extrusion die permits higher mass flow rates and thus greater dough piece production rates at lower cutter speeds. The use of multi-port extrusion and lower cutter speeds increases shape, definition, and accuracy of cutting and reduces scattering and deformation of the individual pieces.

Abstract: Three-dimensional food products such as crackers, cookies, puffed snacks, puffable glassy half-products, pet foods, pasta, confections such as chewing gum, and ready-to-eat cereals are produced on a mass production basis by feeding a dough or other food composition to a plurality of dies which shape it into ropes. The shaped extrudate ropes obtained from each die are cut by a cutting device which passes across only a portion of each of the orifices of the dies to partially cut each of the shaped extrudate ropes. The cutting device passes across the entire orifice of each of the dies to completely cut each of the partially cut extrudate ropes into individual pieces. The use of a multi-port extrusion die permits higher mass flow rates and thus greater dough piece production rates at lower cutter speeds. The use of multi-port extrusion and lower cutter speeds increases shape, definition, and accuracy of cutting and reduces scattering and deformation of the individual pieces.

Abstract: A process and system for sterilizing packages of thermally-treatable products having different sterilization processing requirements. These packaged products can be different types of canned soups, for example. At least one of the packaged products is preheated a significant, predetermined amount in a preheat vessel in a steam or steam-air mixture to accommodate these different processing requirements. This allows the first and second packages to be processed through the stationary hydrostatic sterilizer, which is generally separate from the preheat vessel, at a common line speed and temperature. Expensive sterilizer changeover delays are thereby reduced significantly or even avoided. This process also allows the soup to be cold blended, reducing the likelihood of any overcooking in the large cooking kettle and reducing the amount of starch needed.

Abstract: An apparatus for uniformly cooking foods which rapidly cools the cooked foods to reduce spoilage. Food packages are placed on trays and the trays are inserted in a transportable rack. The rack is loaded into a cooking tank. A pump continuously circulates hot water through a conduit from a heat exchanger to the tank to cook the food and returns the water back to the heat exchanger. A control mechanism determines and controls the temperature of the water and monitors the temperature of the food to control the length of time the heated water is applied. After the food has been properly cooked and pasteurized, cold water is rapidly supplied to the tank to quickly cool the cooked products. The continuous circulation of water during the heating mode provides uniform cooking with precise temperature control and the circulation during the cooling mode provides for rapid cooling so as to reduce spoilage.

Abstract: A device for steam cooking foodstuffs having a steam producer with an outlet to provide steam to a sealed vessel containing foodstuffs and provided with an apparatus to control the pressure in the vessel. The pressure in the vessel is controlled by condensing the steam in the vessel by a sheet of cold fluid drawn down along the inner wall of the vessel.

Abstract: The invention provides a rotary processor which is able to both cook and cool containerized food in a single vessel. The rotary processor comprises a single vessel with a rotatable reel, which has barrier walls disposed within the reel. The barrier walls allow one side of the vessel to heat and another side of the vessel to cool.

Abstract: An apparatus for pasteurizing or sterilizing and subsequent cooling of edible foodstuffs in containers. The containers are relatively thin-walled and are fabricated from plastic. At least one of the containers is provided with an internal probe which monitors the pressure and temperature at its substantially geometric center. The pressure within a chamber of the apparatus, within which pasteurization or sterilization is to be effected, is also monitored. A comparitor compares the pressures within the chamber and the container having the probe therein to develop a control signal representative of the pressure difference. A controller is arranged to respond to the control signal to maintain a predetermined pressure relationship while heating and subsequently cooling the foodstuffs. The pressure difference which is maintained may be zero, or be slightly above or below zero.

Abstract: Continuous-processing type sterilizer and cooker for providing packaged foods completely sterilized with a small heat-energy consumption and retaining the color, fragrance, taste, texture and quality similar to unprepared foods by taking the steps of immersing a product cage, wherein contains the packaged foods, in pressurized hot-water in a sterilization tank, moving the cage within the hot water by means of a drive means for a given period of time, transferring it through a transfer tank from the hot water to a pressurized cooling water in a cooling tank, and moving it within the cooling water by means of a drive means for a given period of time. Both the sterilization tank and the cooling tank are connected to the transfer tank at their one end, the sterilization tank having a preparatory chamber at its other end and the cooling tank having an off-loading chamber at its other end.

Abstract: A low liquid volume retort method is provided wherein a tunnel is disposed within and spaced from the side walls and cover of a retort. A plurality of spaced containers are loaded in the tunnel, and a liquid maintained at a temperature different from that of the containers is then pumped from an inlet end of the tunnel to the outlet end to completely fill the tunnel and to evenly transfer heat between all of the containers and the liquid. The liquid then overflows from the outlet end of the tunnel and gravitates to the lower portion of the retort for return to a desired processing temperature and recirculation through the tunnel. The quantity of liquid required for processing is greatly reduced by filling only the tunnel with liquid, and collecting only a small portion of the liquid at the bottom of the retort before again recirculating the liquid through the tunnel and past the containers therein being processed.

Abstract: A method of sterilizing and rapidly cooling containers in a steam sterilizer by spraying the containers with a cooling fluid which has been sterilized under the same conditions as the containers.A steam sterilizer modified with a closed loop recirculating system which provides a sterilized cooling fluid for quickly cooling the sterilized containers.