A system for the processing of materials includes a freezing section and a thawing section, with elongated channels extending through both sections, and gates between the sections and at the output of the thawing section. Large blocks of frozen material are slid from the freezing section to the thawing section; and a new batch of material is frozen with the heat from the freezing section used to thaw the blocks of frozen material. A harvest bar with dogs extending into the frozen material traverses at least a freezing section, and spray nozzles associated with the harvest bar may be used for cleaning the system.
A system for the freeze processing of materials includes two spaced units, each including a plurality of channels. A refrigeration system intercouples the two units so that heat extracted from material as it is being frozen in one unit is employed to thaw frozen material in the other unit. Separately movable harvest assemblies including squeegee-like members are provided to advance treated material out of the channels. The harvest assemblies may include spray nozzles for cleaning the channels.
A brine cooling apparatus is provided which addresses an environmental problem by not contributing to global warming and can prevent brine from freezing within a heat exchanger. The apparatus is structured such that a screw compressor, a condenser, a main expansion valve and an evaporator are connected by a pipe so as to cool brine flowing through the evaporator. The refrigerant is an ammonia refrigerant, the evaporator is a plate type heat exchanger constructed by laying a plural sheets of plates, and capacity control means is provided in such a manner as to control a capacity of the screw compressor in accordance with the flow amount of the brine.
A brine cooling apparatus is provided which addresses an environmental problem by not contributing to global warming and can prevent brine from freezing within a heat exchanger. The apparatus is structured such that a screw compressor, a condenser, a main expansion valve and an evaporator are connected by a pipe so as to cool brine flowing through the evaporator. The refrigerant is an ammonia refrigerant, the evaporator is a plate type heat exchanger constructed by laying a plural sheets of plates, and capacity control means is provided in such a manner as to control a capacity of the screw compressor in accordance with the flow amount of the brine.
A brine cooling apparatus is provided which addresses to an environmental problem by not contributing to global warming and can prevent brine from freezing within a heat exchange. The apparatus is structured such that a screw compressor, a condenser, a main expansion valve and an evaporator are connected by a pipe so as to cool brine flowing through the evaporator. The refrigerant is an ammonia refrigerant, the evaporator is a plate type heat exchanger constructed by laying a plural sheets of plates, and capacity control means is provided in such a manner as to control a capacity of the screw compressor in accordance with the flow amount of the brine.
