NZ802884B2

NZ802884B2 - Methods and systems and apparatus to support reduced energy and water usage

Info

Publication number: NZ802884B2
Application number: NZ802884A
Authority: NZ
Inventors: Peter Konowalczyk
Original assignee: Octopus Energy Heating Limited
Filing date: 2022-02-07
Publication date: 2024-07-30

Abstract

Provided is an installation including an in-building hot water supply system, a heat pump arranged to heat water in the hot water supply system, an energy storage arrangement containing a mass of phase change material and a heat exchanger that is coupled between the hot water system and the heat pump, and a processor to provide a signal to the heat pump based on the opening of an outlet of the hot water supply system. The mass of phase change material has enough latent heat capacity to heat to a predetermined temperature a predetermined quantity of water in the interval from the opening of an outlet of the hot water supply system until at least the heat pump begins to heat water in the hot water supply system. Also provided is a method of controlling a heat pump in such an installation, the method comprising the processor sensing the opening of an outlet of the hot water supply system and, based on a sensed hot water flow rate, the status of the energy storage arrangement, the status of the heat pump, determining whether to provide a start signal to the heat pump.

Claims

1. An installation including an in-building hot water supply system, a heat pump arranged to heat water in the hot water supply system, an energy storage arrangement containing a mass of an energy storage medium 5 and a heat exchanger that is coupled between the hot water system and the heat pump, and a processor to provide a signal to the heat pump based on the opening of an outlet of the hot water supply system; wherein the mass of energy storage medium has enough heat capacity to heat to a predetermined temperature a predetermined quantity of water in the interval from the opening of an outlet of the hot water supply system until at least the heat pump begins to heat water in the hot water supply system; 10 further comprising an instantaneous water heater in the flow path between the energy storage arrangement and the outlet of the hot water system, the instantaneous water heater being controlled by the processor and the instantaneous water heater being an electric heater, and a temperature transducer in a flow path for water in the hot water system intermediate the heat exchanger and the instantaneous water heater; wherein the processor is configured to rely preferentially on the energy storage arrangement and then the heat 15 pump to provide sufficient hot water.

2. The installation as claimed in claim 1, wherein the processor is configured to activate the instantaneous water heater only when the energy storage arrangement and the heat pump are unable to provide sufficient hot water.

3. The installation of claim 1 or claim 2, wherein the processor is configured to control the instantaneous water heater based on information about the status of the energy storage medium and of the heat pump.

4. The installation of any one of the preceding claims, wherein the processor is provided with logic to 25 manage the use of the instantaneous water heater, the heat pump, and energy from the energy storage medium to reduce energy consumption.

5. The installation of any one of the preceding claims, wherein the processor is configured to estimate an energy content of the energy storage medium.

6. A method of controlling a heat pump in an installation, the installation including: an in-building hot water supply system, a heat pump arranged to heat water in the hot water supply system, a heat exchanger coupled between the hot water system and the heat pump; an energy storage arrangement containing a mass of energy storage medium, the heat exchanger being part of the energy storage arrangement; 35 an instantaneous water heater in the flow path between the energy storage arrangement and the outlet of the hot water system, the instantaneous water heater being controlled by the processor and the instantaneous water heater being an electric heater; a temperature transducer in a flow path for water in the hot water system intermediate the heat exchanger and the instantaneous water heater; and a processor, to provide a signal to the heat pump based on the opening of an outlet of the hot water supply system, the processor being configured to receive information on the status of the energy storage 5 arrangement and on the status of the heat pump; the processor being configured to rely preferentially on the energy storage arrangement and then the heat pump to provide sufficient hot water; wherein the mass of energy storage medium has enough heat capacity to heat to a predetermined temperature a predetermined quantity of water from the opening of an outlet of the hot water supply system 10 at least until the heat pump begins to heat water in the hot water supply system; the method comprising the processor sensing the opening of an outlet of the hot water supply system and, based on a sensed hot water flow rate, the status of the energy storage arrangement, the status of the heat pump, determining whether to provide a start signal to the heat pump. 15

7. The method of claim 6, further comprising the processor, based on the sensed hot water flow rate, determining a type of the outlet whose opening has been sensed, and using the determined type in determining whether to provide a start signal to the heat pump.

8. The method of claim 6 or claim 7, further comprising the processor using predicted and/or scheduled 20 demand data in determining whether to provide a start signal to the heat pump.

9. The method of any one of claims 6 to 8, the method further comprising the processor, in the event that it is determined not to provide a start signal to the heat pump, determining whether to energise the electrical water heater to heat water in the hot water system.

10. A computer program comprising instructions which, when the program is executed by a processor, cause the processor to carry out the method of any one of claims 6 to 9.

11. A computer-readable storage medium comprising instructions which, when executed by a processor, 30 cause the processor to carry out the method of any one of claims 6 to 9.

12. A processor and memory for use in controlling a heat pump in an installation, the installation including an in-building hot water supply system, a heat pump arranged to heat water in the hot water supply system, and an energy storage arrangement containing a mass of energy storage medium, the processor being 35 configured for operative connection to the heat pump to provide a signal to the heat pump based on the opening of an outlet of the hot water supply system, the processor being configured to receive information on the status of the energy storage arrangement; and the memory, operatively coupled to the processor, storing instructions that cause the processor to perform a method of controlling the heat pump, in which method the processor: senses the opening of an outlet of the hot water supply system and, based on a sensed hot water flow rate, the status of the energy storage arrangement, determines whether to provide a start signal to the heat pump.

13. The processor and memory of claim 12, wherein the processor is configured to: 5 receive status information from the heat pump; and use heat pump status information in determining whether to provide a start signal to the heat pump.

14. The processor and memory of either claim 12 or claim 13, wherein the mass of energy storage medium has enough heat capacity to heat to a predetermined temperature a predetermined quantity of water in the 10 interval from the opening of an outlet of the hot water supply system until at least the heat pump begins to heat water in the hot water supply system.

15. The processor and memory of any one of claims 12 to 14, wherein the processor is configured to rely preferentially on the energy storage arrangement and then the heat pump to provide sufficient hot water. ENERGY STORAGE ARRANGEMENT 150 HEAT