NZ802513B2

NZ802513B2 - Methods and systems and apparatus to support reduced energy and water usage

Info

Publication number: NZ802513B2
Application number: NZ802513A
Authority: NZ
Inventors: Peter Konowalczyk
Original assignee: Octopus Energy Heating Limited
Filing date: 2022-02-07
Publication date: 2024-10-30

Abstract

Provided is a method of controlling a supply of heated water from a source including a heating appliance (301) to a plurality of water outlets (302, 303) remote from the heating appliance, the method comprising: detecting a demand for water from a first water outlet (302), identifying the demand as likely to be associated with the first water outlet (302) and setting to a first target water temperature value, associated with the first outlet, a target water temperature for the temperature at which water is supplied; detecting a demand for water from a second water outlet (303), identifying the demand as likely to be associated with the second water outlet, and resetting to a second target water temperature value, associated with the second outlet, the target water temperature at which water is supplied; wherein the demand is associated with an outlet based on a detected flow characteristic. Also provided is a hot-water supply installation having a plurality of controllable outlets, the installation including: a source of hot-water with an outlet having a controllable outflow temperature; a flow measurement device to provide data on water flow between the source and the plurality of controllable outlets; a temperature sensor to detect the outflow temperature; a memory storing parameters linking flow data to outlet identity, and associating each of the plurality of controllable outlets with a respective target temperature; a processor operatively connected to the memory, the flow measurement device, and the first temperature sensor; the processor being configured: in the event that one of the plurality of controllable outlets is opened, to determine based on a detected flow characteristic which of the plurality of controllable outlets has been opened, and then based on that determination to control the outflow temperature of the source, in accordance with stored parameters for the determined one of the controllable outlets; and in the event that another of the plurality of controllable outlets is opened, to determine which another of the plurality of controllable outlets has been opened, and then based on that determination to control the outflow temperature of the source, in accordance with stored parameters for the determined another of the controllable outlets.

Claims

1. A method of controlling a supply of heated water from a source including a heating appliance to a plurality of water outlets remote from the heating appliance, the method being performed by a 5 processor, the method comprising: detecting a demand for water from a first water outlet, identifying the demand as likely to be associated with the first water outlet and setting to a first target water temperature value, associated with the first outlet, a target water temperature for the temperature at which water is supplied; detecting a demand for water from a second water outlet, identifying the demand as likely 10 to be associated with the second water outlet, and resetting to a second target water temperature value, associated with the second outlet, the target water temperature at which water is supplied; wherein identifying the demand as associated with each of the first and second outlets is based on a respective flow characteristic; further comprising using the processor to control mixing of heated water from the heating appliance 15 with water of a different temperature to provide the supply of water at the first or second target water temperature values; wherein identifying the demand includes obtaining additional information associated with the outlet, the additional information being derived from electrical demand or occupancy signals associated with the outlet location.

2. The method as claimed in claim 1, further comprising controlling the heating appliance to regulate the temperature at which heated water is supplied from the heating appliance.

3. The method as claimed in claim 1 or 2, wherein the flow characteristic comprises at least one 25 of maximum flow rate and/or rate of change of flow to a predetermined flow rate.

4. The method as claimed in any one of the preceding claims, further comprising detecting a demand as likely to be associated with more than one outlet and setting the target water temperature to a third target water temperature value.

5. The method as claimed in claim 4, wherein the third target water temperature value is the lowest target water temperature value associated the identified likely water outlets. MARKED UP COPY

6. The method as claimed in claim 4, wherein the third target water temperature value is a temperature intermediate the target water temperature values of the identified likely water outlets.

7. The method as claimed in any one of the preceding claims, wherein the heating appliance is 5 part of a domestic hot water supply system, the heating appliance including an energy storage arrangement containing a mass of phase change material to store energy in the form of latent heat and a heat exchanger that is coupled between the hot water system and a heat pump, and a system controller; the system controller being configured to receive information from a flow measurement device, and 10 on the status of the energy storage arrangement; the system controller being configured to sense the opening of any of a plurality of controllable hot-water outlets and, based on a sensed hot water flow rate and the status of the energy storage arrangement, to determining whether to provide a start signal to the heat pump. 15

8. The method as claimed in claim 7, wherein the system controller is configured to: 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.

9. A domestic hot-water supply installation having a plurality of controllable hot-water outlets, 20 the installation including: a source of hot water with an outlet having a controllable outflow temperature; a flow measurement device to provide data on water flow between the source and the plurality of controllable hot water outlets; a first temperature sensor to detect the outflow temperature; 25 a memory storing parameters linking flow data to outlet identity, and associating each of the plurality of controllable hot water outlets with a respective target temperature; a processor operatively connected to the memory, the flow measurement device, and the first temperature sensor; the processor being configured: 30 in the event that one of the plurality of controllable hot-water outlets is opened, to determine based on a respective flow characteristic which of the plurality of controllable hot-water outlets has been opened, and then based on that determination to control the outflow temperature of the source of hot-water to a first target temperature, in accordance with stored parameters for the determined one of the controllable hot-water outlets; MARKED UP COPY in the event that another of the plurality of controllable hot-water outlets is opened, to determine based on a respective flow characteristic which another of the plurality of controllable hot-water outlets has been opened, and then based on that determination to control the outflow temperature of the source of hot-water to a second target temperature, in accordance with stored parameters for 5 the determined another of the controllable hot-water outlets; wherein the processor is configured to control the outflow temperature of the source of hot-water by mixing of heated water from a heating appliance with water of a different temperature to provide the supply of water at the first or second target water temperature; and wherein the processor is further configured to identify the demand by obtaining additional 10 information associated with the outlet, the additional information being derived from electrical demand or occupancy signals associated with the outlet location.

10. The hot-water supply installation as claimed in claim 9, wherein the installation includes an energy storage arrangement containing a mass of phase change material and a heat exchanger that is 15 coupled between the hot water system and a heat pump, and a system controller; the processor being configured to: receive information from the flow measurement device, and on the status of the energy storage arrangement; sense the opening of any of the plurality of controllable hot-water outlets and, based on a sensed hot 20 water flow rate and the status of the energy storage arrangement, determine whether to provide a start signal to the heat pump.

11. The hot-water supply installation as claimed in claim 10, wherein the processor is configured 25 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.

12. The hot-water supply installation as claimed in claim 10 or 11, further comprising an instantaneous water heater in the flow path between the energy storage arrangement and the outlet 30 of the source of hot water, the instantaneous water heater being controlled by the processor.

13. The hot-water supply installation as claimed in claim 12, 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. MARKED UP COPY

14. The hot-water supply installation as claimed in claim 13, wherein the processor is configured to control the instantaneous water heater based on information about the status of the phase-change material and of the heat pump.

15. The hot-water supply installation as claimed in any one of claims 12 to 14, wherein the processor is provided with logic to manage the use of the instantaneous water heater, the heat pump, and energy from the phase change material to reduce energy consumption. 10

16. The hot-water supply installation as claimed in any one of claims 10 to 15, wherein the processor is configured to rely preferentially on the energy storage arrangement and then the heat pump to provide sufficient hot water. 135 136 EN-SUITE 1 MASTER BATHROOM KITCHEN CLOAKROOM EN-SUITE 2