Abstract: Methods, systems, and computer program products for ensuring fairness in the operation of thermal grids are provided herein. A computer-implemented method includes generating one or more models derived from information pertaining to a heating and cooling network, wherein the heating and cooling network comprises multiple consumers; categorizing each of the multiple consumers into one of two groups based on (i) one or more objectives of the heating and cooling network, (ii) the one or more generated models, and (iii) one or more constraints; generating a signal to be sent to each of the consumers categorized within a first of the two groups, wherein the signal comprises a temperature set-point adjustment proposal; and outputting the signals to the consumers categorized within the first of the two groups.

Abstract: A method for placing an oven (12) for heat-treating preforms (13) into standby, including: a device (16) for conveying the preforms (13); at least one heating lamp (22); at least one heat-accumulation element (24, 26); and an electronic unit for controlling the heating lamps (22), characterized in that the method includes, in series: a first switching-off step (E1) which is triggered when a stop in production is determined, and in which the heating lamps (22) are completely switched off; and then a second temperature-maintaining step (E2) which is triggered after the first step (E1), and in which the heating lamps (22) are activated at a predetermined intensity in order to reheat the accumulation elements (24, 26).

Abstract: A method of dispensing a volatile material includes the steps of providing power to a volatile material diffuser having a diffusion element and operating the diffusion element for a first period of time, wherein the diffusion element is continuously activated and deactivated during the period of time at a first duty cycle having a first on time and a first off time. Still further, the method includes the step of operating the diffusion element for a final period of time, wherein the diffusion element is continuously activated and deactivated during the final period of time at a final duty cycle having a final on time and a final off time. The first duty cycle is less than about 100% such that the first off time is greater than about 0 seconds and the final duty cycle is about 100% such that the final off time is about 0 seconds and wherein the final period of time begins after the first period of time has finished.

Abstract: A method of dispensing a volatile material comprises the steps of providing power to a volatile material diffuser having a diffusion element. The method further includes the step of operating the diffusion element for a randomly determined period of time, wherein the diffusion element is continuously activated and deactivated during the period of time at a randomly determined duty cycle.

Abstract: A water temperature calibration method for an electric kettle includes the steps of providing a temperature sensor, a microprocessor, and a control circuit; detecting an interior temperature from one of the temperatures of the water, a heating point contacting with the water, and an interior wall of the electric kettle; determining a temperature rate change by the microprocessor and comparing a current cycle of the temperature rate change with a previous cycle thereof; and sending out a control signal to the control circuit when the current cycle of the temperature rate change is close to the previous cycle thereof that a difference between the current cycle of the temperature rate change and the previous cycle thereof is minimized. Therefore, the process is adapted to accurately determine the water temperature and to cut off the heating power when the water is boiled.

Abstract: Method and control arrangement for terminating an accidental switch on of a deep fryer apparatus when it is not filled with oil, the apparatus comprises a vessel having closed bottom and sides, and a horizontally formed electric heating element for direct contact with the oil within the vessel. At one or more points of the inner space of the vessel the temperature is measured, by which the accidental switch on state of the apparatus is detected and terminated at the same time in such a way that a derivative of the temperature measured at the one or more determined points is defined. The heating power is automatically cut off to terminate switched on state when the value of the derivative exceeds a predetermined threshold value.

Abstract: An appliance for producing hot drinks comprising a water heating device; a heat source; a seat adapted to receive a product for preparing the drink; a duct for feeding hot water from the water heating device to the seat; a first temperature sensor associated with the water heating device; a control unit operatively associated with the temperature sensor and with the heat source said control unit the temperature of the water contained in the device, by switching on/switching off the heat source based on the temperature detected by the temperature sensor; a second temperature sensor associated with the hot water feeding duct; and said control unit is being adapted to control the temperature of the water contained in the device by switching on/switching off the heat source also based on the temperature detected by the second temperature sensor.

Abstract: A temperature control method for a heat process on a resist film on a substrate includes first and second steps. The first step includes measuring a stepped response waveform of measured temperatures of a substrate at measurement points while changing stepwise each target temperature, then using this result to compose a pulsed response waveform with respect to a change of a pulsed target temperature, then using this result to compose a triangular response waveform with respect to a change of a triangular target temperature, and then using this result to acquire a matrix as relation information showing a relation between the target temperatures and temperatures of the substrate at measurement points.

Abstract: For use on board a mobile means of transport (eg. aircraft, bus, ship), a heating system and method are described which lead to a reduction of peak demand in the on-board kitchen energy supply system relating to the integrated heating appliances for the warming or heating of food. For this, latent or thermochemical heat storage units are used which are fully integrated into the structural elements of the heating appliance in question and heats the product in such a way that there is sufficient heat output, while at the same time, the absolute temperature is limited by means of an appropriate choice of heat storage material for product enhancement.

Abstract: A method and apparatus for removeably coupling a heat rejecting device with a heat producing device, wherein a thermal interface material having a predetermined phase change temperature is between the heat rejecting device and the heat producing device, the method comprising: configuring the heat rejecting device to include at least one heating element; and energizing the at least one heating element for a predetermined amount of time through at least one electrical contact, wherein a current applied to the at least one heating element heats the at least one heating element until the thermal interface material substantially reaches the predetermined phase change temperature. The at least one heating element is located on an interface surface in contact with the thermal interface material, although alternatively on an opposite surface, or within the apparatus.

Abstract: In a heat storage air conditioning apparatus, a power demand time-sequence data collecting unit collects time-sequence data on demand for power; a power demand curve estimating unit estimates a power demand curve obtained as a result of analysis of the power demand time-sequence data collected by the power demand time-sequence data collecting unit; a thermal energy load demand estimating unit estimates thermal energy load demand from the power demand curve estimated by the power demand curve estimating unit; an operation unit of a thermal-energy source feeds cooling/heating energy; a heat accumulating unit stores the cooling/heating energy supplied from the operation unit therein; a cold/hot air discharging unit discharges the thermal energy stored in the heat accumulating unit; a cooling/heating energy quantity recognizing unit recognizes the quantity of cooling or heating energy dissipated from the cold/hot air discharging unit; and a converting unit converts the quantity of cooling/heating energy into the

Abstract: A system which is particularly well suited for the storage and disposal of reclaimable oil and grease materials resulting from food preparation operations. The system utilizes a storage apparatus associated with a building. The apparatus preferably comprises: a container positioned outside of the building; an inlet conduit for conducting the material to the container; and an outlet conduit for conducting the material from the container. Each of the inlet and outlet conduits preferably has a first end positioned inside the building and a second end connected to the container.

Abstract: Hot water heaters are provided which contain improved temperature control devices and multiple resistance wire heating elements. The temperature control devices selectively deactivate at least one of the resistance wires to conserve electricity and preserve a steady-state hot beverage or hot water service temperature.

Abstract: A method of energy load management for the heating and cooling of a building. The method involves utilizing a wallboard as a portion of the building, the wallboard containing about 5 to about 30 wt. % a phase change material such that melting of the phase change material occurs during a rise in temperature within the building to remove heat from the air, and a solidification of the phase change material occurs during a lowering of the temperature to dispense heat into the air. At the beginning of either of these cooling or heating cycles, the phase change material is preferably "fully charged". In preferred installations one type of wallboard is used on the interior surfaces of exterior walls, and another type as the surface on interior walls. The particular PCM is chosen for the desired wall and room temperature of these locations.