Patent ID: 9631881
Date: 2017-04-25
CPC Classifications: F24D,F24F,F28D,F28F,G05D,Y02B,Y02E

Claim:
1. A climate control system, comprising: a location to be heated to at least a minimum required temperature, an intermittent energy source, the energy from which is stored in an energy reserve, wherein the energy reserve has an energy level, an on-demand energy source which is used to supplement the intermittent energy source as necessary to meet climate demands of the location, a hydronic heating system powered by the energy reserve and the on-demand energy source, wherein the hydronic heating system heats the location to be heated, a monitor that measures the energy level of the energy reserve, a conditional thermostat located in the location to be heated, wherein the conditional thermostat has at least a lower and a higher temperature setpoint, wherein, when the energy level of the energy reserve is below a user-determined energy level, the minimum required temperature of the location to be heated is equal to the lower temperature setpoint, and when the energy level of the energy reserve exceeds the user-determined energy level, the minimum required temperature of the location to be heated is equal to the higher temperature setpoint, further comprising: a second location to be heated to at least a second required minimum temperature, a second conditional thermostat located in the second location to be heated, wherein the second conditional thermostat has at least a second lower and a second higher temperature setpoint, wherein the hydronic heating system further heats the second location to be heated, wherein, when the energy level of the energy reserve is below a second user-determined energy level, the second minimum required temperature of the second location to be heated is equal to the second lower temperature setpoint, and when the energy level of the energy reserve exceeds the second user-determined energy level, the second minimum required temperature of the second location to be heated is equal to the second higher temperature setpoint, and wherein the second user-determined energy level corresponds to a higher energy level than the user-determined energy level.