RU2021100792A - INTERNALLY HEATED HEAT STORAGE WITH PHASE TRANSITION MATERIAL - Google Patents

Claims (41)

1. Heat accumulator (600) with phase change material (MPC) containing an MFP camera (603) capable of containing the MFP, The MFP located in the chamber (603) of the MFP, an electronic control system for managing a heat accumulator (600) with an MFP, at least one or a plurality of heating devices (611) located in the heat accumulator (600) with the MFP, wherein at least one or a plurality of heating devices (611) are capable of heating and/or charging the MFP, a plurality of sensors (610) located at different vertical positions of the thermal accumulator (600) with the MFP, capable of monitoring the physical characteristics and/or temperature of the MFP and other parts of the thermal accumulator (600), moreover, at least one or a plurality of heating devices (611) are located inside the MFP chamber (603) and therefore are in direct contact and immersed in the MFP, at least one or a plurality of thermal conductors, essentially vertically inserted into the body (601) of the heat accumulator and which are immersed or partially immersed in the MFP, at least one or a plurality of thermal conductors are located essentially vertically in the heat exchanger (604) and pass into the MFP, and wherein the electronic control system controls the physical characteristics and/or temperature of the MFP by applying heat directly to the MFP via one or more heating devices (611). 2. Heat accumulator (600) with a phase change material (PCM) according to claim 1, in which there are at least one, two, three, four, five, six or a plurality of heating devices. 3. Heat accumulator (600) with a phase change material (PCM) according to any of the previous paragraphs, in which there are heating devices (611) located at different levels vertically inside the CHM chamber (603). 4. Thermal storage (600) with a phase change material (PCM) according to any one of the previous paragraphs, in which there is an outer casing (601) for the entire thermal storage (600) with MPC and an insulating layer (602) passing around the chamber (603 ) MFP. 5. Thermal storage (600) with a phase change material (PCM) according to any one of the previous paragraphs, and the thermal storage (600) with PCM is a two-port thermal storage. 6. A heat accumulator (600) with a phase change material (PCM) according to any of the previous paragraphs, in which the heat exchanger (604) contains fins, and the heat exchanger (604) is located inside the CHM chamber (603). 7. Thermal storage (600) with a phase change material (PCM) according to any one of the previous claims, wherein the electronic control system comprises a low power circuit (LPC) and a high power circuit (HPC) which are used to provide electrical connection for the thermal storage (600 ) with the MFP, and in which the electronic control system contains an HPC input (608) and an HPC output (609). 8. Thermal storage (600) with a phase change material (PCM) according to any of the previous paragraphs, which has a thermostat S0 for automatic shutdown in case of overheating and a number of temperature sensors (610) distributed at different locations along the vertical of the thermal storage (600) to obtain the temperature throughout the working environment and the MFP and / or heat exchanger (604). 9. Thermal storage (600) with a phase change material (PCM) according to any one of the previous claims, in which the heating device (611) is located in the upper half of the chamber (603) of the MPC and immersed in the MPC. 10. A heat accumulator (600) with a phase change material (PCM) according to any of the previous claims, in which the electronics control system contains a battery controller that allows you to fully control and / or turn on and / or turn off the heating device (611) if necessary, and in which the amount of energy and/or heat supplied by the heating device (611) is also controlled depending on the measurement of the sensors (610) located in the chamber (603) of the MFP and the MFP. 11. Heat accumulator (600) with a phase change material (PCM) according to any of the previous claims, in which there are many electric heaters (611) located at different heights inside the camera (603) of the MPC and / or MPC. 12. Heat accumulator (600) with a phase change material (PCM) according to any of the previous paragraphs, in which there is a first heating device located in the upper half of the MPC chamber, and a second heating device located in the lower half of the MPC chamber (603), and both the first and the second heating device are immersed in the MFP. 13. Heat accumulator (600) with a phase change material (PCM) according to any of the previous claims, in which there is at least one or a plurality of non-planar heating devices built into the core (620) of the heat exchanger, and in which, if necessary, additionally the non-planar heating devices comprise a substantially vertical portion that extends downward through the MFP and at least one or a plurality of substantially horizontal portions extend substantially tangentially from the substantially vertical portion, or the first substantially horizontal portion extends along the lower quarter of the heat exchanger core, the second horizontal portion extends substantially through the middle portion of the heat exchanger core, and the third horizontal portion extends through the upper quarter of the heat exchanger core, or the substantially horizontal portions are embedded or at least partially embedded in the core of the heat exchanger (604). 14. A heat accumulator (600) with a phase change material (PCM) according to any of the previous claims, in which there is at least one or a plurality of heating devices (611) that are built into the core (620) of the heat exchanger, which contains conductive elements, for example, conductive pipes such as copper pipes; and in which, if necessary, additional at least one or a plurality of electric heaters (611) are built into the MFP heat accumulator piping, or the heating device (611) is built into a circuit which extends substantially horizontally across the core (620) of the heat exchanger, and the circuit is built into the heat exchanger, there is a channel that extends around the loop, and at least one or a plurality of heating devices extend around the loop. 15. The method of applying thermal energy in a heat accumulator (600) with a material with a phase change (MPC), comprising the steps of: supplying an MFP camera (603) capable of containing the MFP; supply the MFP located in the chamber (603); supply an electronics control system for managing a heat accumulator (600) with an MFP; supply at least one or a plurality of heating devices (611) located in the chamber (603) of the MFP and immersed in the MFP; wherein at least one or a plurality of heating devices (611) are capable of heating and/or charging the MFP; supplying a plurality of sensors (610) located at different vertical locations of the heat accumulator (600) with the MFP capable of monitoring the physical characteristics and/or temperature of the MFP and other parts of the heat accumulator (600); moreover, at least one or a plurality of heating devices (611) are located inside the chamber (603) MFP and therefore are in direct contact and immersed in the MFP; at least one or a plurality of thermal conductors are substantially vertically inserted into the heat accumulator housing (601) and immersed or partially immersed in the MFP; at least one or a plurality of thermal conductors are located essentially vertically in the heat exchanger (604) and continue in the MFP; and wherein the electronic control system controls the physical characteristics and/or temperature of the MFP by applying heat through at least one or a plurality of heating devices.