Abstract: A thermoelectric water chiller system for cooling fluids, and including a cold sink which defines quiescent areas where convection currents are minimized to facilitate ice formation around the cold sink is provided. The cold sink cooperates with water held in a sealed tank. A cover member which covers the cold sink can be employed which would cooperate with the tank to form a fluid-tight seal therewith. Components needing periodic cleaning are preferably removable from the system, but the tank could be permanently installed. A fan-cooled thermoelectric module assembly is used to form the ice block adjacent the bottom of the tank which chills the water. A variable-speed fan and current to the thermoelectric module are controlled by a control circuit with inputs from various temperature sensors positioned on and within various portions of the chiller system, including sensors to monitor ambient air temperature about the chiller system.

Abstract: A power lead for electrically connecting a superconducting coil with a power supply, comprising thermoelectric cooling means, said means including at least an N-type thermoelectric member and a P-type thermoelectric member, being electrically connected to a positive side and a negative side of said power supply, respectively.

Abstract: A refrigeration system (12) is comprised of three expansion units (19A, 19B, 19C), with each having an expansion chamber (22) and three secondary chambers (24, 26 and 28), connected to a supply (16) of compressed refrigerant. The expansion chamber and secondary chambers are formed with progressively reducing volumetric capacity. The end of each of the the secondary chambers, is connected to a common bleed tube (29) having a bleed hole (34) for venting the refrigerant. The bleed hole opens to the outside of a housing (15) which houses the expansion units. The interior of the housing (15) is filled with a gel which changes state from a liquid to a solid at a predetemmined temperature. A valving arrangement (32) connects the expansion units to a supply of compressed refrigerant. The housing (15) together with a supply (16) refrigerant can be installed into a cooling box for cooling the space within the cooling box.

Abstract: A plate and tube condenser for a refrigerating apparatus, the plate sized to encompass the entire bottom region of a refrigerating cabinet to structurally stiffen the cabinet, the plate serving as an extended heat transfer surface for a serpentine tube applied thereto either by fixation thereto. An air flow baffle is arranged to divide the plate into inlet air and outlet air sections both opening to a front of the cabinet behind the air grill. Perforations are applied through the plate on the inlet section to allow incoming air to pass both below and above the plate.

Abstract: A dehumidifier/cooling apparatus for use in a room having an elevated temperature and/or humidity is provided which utilizes the natural coolness of tap water to condense water vapor from the air or merely cool the air. The tap water line is diverted into a heat exchanger upstream of a hot water heater to dehumidify and/or cool the air in the room the air and remove the latent heat given off during condensation to cool and/or dehumidify the room air and to pre-heat the water entering the hot water heater.

Abstract: An improved dehumidification system for automotive use includes a rotating, wheel like heat exchanger with axially open cells that carry a water adsorbing material. Opposed ambient air and heated air flows, covering opposite halves of the wheel, continually adsorb water on one side and are recharged on the other side. Alternating radially closed cells between the axially open cells carry no desiccant material, but receive a cross cooling flow, on the water adsorbing side of the wheel only, to remove the heat released during the water adsorption process. The desiccant recharging process on the other side of the wheel is not disturbed by the cross cooling flow.

Abstract: A refrigerant recovery system and method for recovering refrigerant from a separate refrigeration system are disclosed which first employs a liquid recovery phase and then a subsequent vapor recovery phase. A liquid sensor monitors the incoming recovered refrigerant and produces a signal indicative of when all of the liquid refrigerant has been recovered from the separate refrigeration system. The timer relay continues the liquid refrigerant recovery phase of operation for an additional predetermined time period once the signal is sensed. Thereafter, the recovery system switches to the vapor recovery phase of operation for yet an additional time period. The system then switches between these two phases until a predetermined condition occurs. An alternative refrigeration system is ambient temperature sensitive for controlling the recovery modes of operation. A thermistor is electronically connected to the timer relay which in turn produces a delayed signal that is indicative of the sensed ambient temperature.

Abstract: PurposeTo provide a refrigeration cycle capacity enhancement apparatus that, in addition to lowering the temperature of coolant going from a condenser 4 to an evaporator 7, raising the temperature of coolant going from the evaporator 7 to a compressor 3, enhancing the performance thereof, and preventing the return of liquid coolant to the compressor 3, can also keep the pressure on the coolant from becoming higher and higher under high loading.ConstitutionTaking note of the fact that the capacity of a heat exchanger 5 is raised by combining drain water D from an evaporator 7 with the heat exchanger 5, this is a refrigeration cycle capacity enhancement apparatus that comprises a compressor 3 and a condenser 4 installed on the engine compartment 12 side of a vehicle, and an evaporator 7 installed on the vehicle cabin 13 side thereof.

Abstract: A heat exchanger and heat pump circuit having an operating subcircuit and a pump down subcircuit each including a liquid line and a heat transfer tube. The heat transfer tube of the pump down subcircuit surrounds the liquid line of the operating subcircuit. During the heating cycle, the heat pump circuit circulates refrigerant through both subcircuits to abstract heat from the heat source/sink. However, during the cooling cycle, the heat pump circuit circulates refrigerant only through the operating subcircuit. Also during the cooling cycle, the heat pump circuit places the pump down subcircuit at low pressure to thermally insulate the operating subcircuit liquid line.

Abstract: In a refrigerant condenser including a super-cooling portion, the super cooling portion is located in the upper position of a core portion. Thus, when a vehicle engine idles, and high temperature cooling air having passed through the refrigerant condenser and the vehicle radiator is lead to the air upstream side of the condenser through the lower portion of the condenser, because the super-cooling portion is located at the upper position of the core portion, the super-cooling portion is not influenced by the high temperature air.

Abstract: A system for controlling temperatures in and the flow of air between freezer and fresh food compartments of a refrigerator incorporates a thermal mass that is adapted to receive a flow of air directed from the freezer compartment to the fresh food compartment. The thermal mass is associated with a temperature sensor that is connected to a manually adjustable thermostat unit. In the preferred embodiment, the temperature sensor comprises a capillary tube which is wrapped around an outer surface portion of the thermal mass. Structure is provided in the air passageway between the freezer and fresh food compartments to regulate the flow of air over the thermal mass. By regulating the flow over the thermal mass, as well as establishing a desired thermal mass size and location, the control system can achieve desired operational cycles in order to minimize energy consumption and to minimize any variance of the number of cycles over a given period of time between various refrigerator units.

Abstract: The lowest metering port in the suction feed pipe of an accumulator is located such that a residual liquid storage volume is created which is at least 20% of the total volume available for liquid storage without overflowing into the suction feed pipe.

Abstract: Apparatus and method for sub-ambient cooling using thermoelectric element dynamics in conjunction with pulsed electrical power and multiple selectively enabled thermal switches. In one form, Peltier devices are dynamically enabled using pulses of electrical power while the thermal paths, between the cold and hot sides of the device are selectively switched conduction state responsive to the temperature dynamics within the Peltier device. Switched coupling of the thermal connections in relative synchronism to the Peltier device electrical and thermal dynamics materially improves efficiency by decoupling Joule heating and conductive heat transfer losses otherwise affecting the net heat transfer. Preferable implementations utilizes MEMS to accomplish the selective switching, whereby sub-ambient cooling capacity is increased by parallel operation of multiple Peltier devices and MEMS switches.

Abstract: A lightweight, insulated chest and method are provided for transportation and storage of perishable and other items which require a temperature-controlled environment. The chest includes insulated side walls, bottom and a hinged cover which is pneumatically sealed to prevent tampering and for thermal security. The chest includes a fluid conduit within the cover for air evacuation and depressurization of the interior and also includes a conduit to provide a vacuum between the walls of the sides and bottom which contain a rigid polymeric foam insulation.

Abstract: A system is adapted to be vehicle mounted and powered by a D.C. source coupled with an inverter to cool individuals or temperature sensitive hardware under uncomfortable ambient conditions. The system includes a pumped liquid circulation loop which can be connected by self-sealing lines with cooling garments, temperature sensitive hardware and the like. An evaporative heat exchanger is provided in the loop as well as a liquid reservoir which is sized to limit short cycling of a compressor in a refrigeration loop associated therewith via the evaporative heat exchanger. A hot gas bypass can be associated with the compressor to allow recirculation of the superheated refrigerant gas when cooling is not required.

Abstract: A thermoelectric water chiller system for cooling fluids, and including a cold sink which defines quiescent areas where convection currents are minimized to facilitate ice formation around the cold sink is provided. The cold sink cooperates with water held in a sealed tank. A cover member which covers the cold sink can be employed which would cooperate with the tank to form a fluid-tight seal therewith. Components needing periodic cleaning are preferably removable from the system, but the tank could be permanently installed. A fan-cooled thermoelectric module assembly is used to form the ice block adjacent the bottom of the tank which chills the water. A variable-speed fan and current to the thermoelectric module are controlled by a control circuit with inputs from various temperature sensors positioned on and within various portions of the chiller system, including sensors to monitor ambient air temperature about the chiller system.

Abstract: A method of cooling a first stream of air in an air conditioning system. The first stream of air is dehumidified and cooled in first and second indirect evaporative coolers for purposes of conditioning a second stream of air for introducing to a conditioned space.

Abstract: A method and apparatus for changing operational modes of a transport refrigeration unit, where the unit is capable of operating in a continuous heating/cooling mode or an automatic start/stop heating/cooling mode. A supply air temperature sensor measures the temperature of the air exiting the unit, a return air temperature sensor measures the temperature of the air returning to the unit, and an ambient air temperature sensor measures the temperature of the ambient air outside the unit. A controller electrically connected to the sensors determines if the ambient air temperature is above or below a pre-determined setpoint temperature, determines if the temperature differential across the return and supply air sensors is above or below a pre-determined upper threshold or a pre-determined lower threshold, and then changes the operational mode of the unit based upon such determinations and the prior operational mode of the unit.

Abstract: The invention relates to a wall air conditioning apparatus for a control panel, with a fan and a lamellar heat exchanger, featuring a box-like housing with an upper inlet opening and a lower outlet opening in the wall that faces the control panel, whereby the fan is arranged behind the inlet opening and the lamellar heat exchanger is arranged under the fan and over the outlet opening at an acute angle to this wall. For improved ventilation and drainage of condensation water, it is provided that the lamellae of the lamellar heat exchanger are at an acute angle to the floor of the housing and drop off toward the wall that faces away from the control cabinet, and that the floor of the housing is provided with a drain for condensate.

Abstract: A system for regulating the amount of fog produced by foggers in a humidification system in which a control signal calling for a certain amount of humidification from foggers is used and wherein the foggers require pressurized air and water to produce fog for an air stream. The pressure differential between the air and water to the foggers is varied according to the amount of required humidification. The pressure differential may be regulated with a pneumatic device or with an electronic control.