Control apparatus and method for combination space and water heating

What is claimed is: 1. A system for a combination space and water heater, the system comprising: a controller device including sensors and plumbing adapted to install between a hydronic heating coil and a water heater, wherein the controller device automatically infers thermal and physical properties of the water heater and the hydronic heating coil from measurements from the sensors, wherein the controller device: automatically deduces hydronic heating coil characteristics through measurement of hydronic flow and hydronic and/or air-side temperatures, wherein the hydronic flow is measured indirectly with a flow switch or directly with a flow meter; utilizes fixed or variable parameters to define a thermal response of the coil, the parameters including heat capacitance; calculates a transient energy balance; iteratively updates the parameters from initial or manually adjusted settings based on an error in estimated energy balance; and defines a thermal response of the hydronic heating coil as a function of two or more constants to define coil capacity as a function of entering hydronic and air temperatures. 2. The system of claim 1 , wherein the plumbing comprises a water conduit, a variable speed pump, and control valves. 3. The system of claim 2 , wherein the plumbing comprises a buffer storage vessel. 4. The system of claim 1 , wherein the combination space and water heater is a potable water system without an intermediary heat exchanger. 5. The system of claim 1 , wherein the controller device automatically and iteratively adjusts constants defining coil capacity as a function of hydronic and air temperatures based upon error analysis, to adjust for changes in the physical system or operating conditions. 6. The system of claim 1 , wherein the controller device stores and utilizes groups of constants defining coil capacity as a function of hydronic and air temperatures, based upon an input discrete or continuous fan speed signal, and hydronic flow. 7. The system of claim 1 , wherein the controller device automatically determines or predicts a hydronic air handler unit heating capacity by measuring hydronic and air temperatures input to the coil, and utilizing stored constants, hydronic flow, fan speed, and data of prior measurements. 8. The system of claim 1 , wherein the controller device automatically determines a thermal response of a space, an ideal heating loop water flow to balance operating efficiency and thermal comfort goals, an ideal water heater target temperature, and/or an ideal time duration between freshwater purges. 9. The system of claim 7 , wherein the controller adjusts the variable pump speed, the control valves, and/or control parameters specific to the water heater or hydronic heating coil to meet a desired goal, including user setting, outdoor setback curve, operating efficiency, or operation of supplemental heating equipment. 10. The system of claim 1 , wherein the water heater provides heated potable water and heated water for space heating, and the hydronic heating coil accepts and conveys the heated water for space heating from the water heater, and further comprising: an air handling unit in combination with the hydronic heating coil to convey air in heat transfer communication with the hydronic heating coil; a water circulating device for controlled circulating of water between the water heater and the hydronic heating coil in response to the sensors; and wherein the sensors and/or items of instrumentation sense one or more water or space heating conditions to provide inputs for the controller device. 11. The system of claim 1 , further comprising a water heating apparatus including the water heater and providing heated potable water and heated water for space heating; a space heating apparatus, the space heating apparatus including the hydronic heating coil for accepting and conveying heated water from the water heating apparatus, the space heating apparatus also including an air handling unit to convey air in heat transfer communication with the hydronic heating coil; a water circulating device for controlled circulating of water between the water heating apparatus and the space heating apparatus in response to the sensors, and wherein the sensors and/or items of instrumentation sense one or more water or space heating conditions to provide inputs for the controller device. 12. The system of claim 11 , wherein the controller device automatically monitors a heating capacity of the water heater and the hydronic heating coil over time, and correlates measured heating loads with one or more environmental temperatures, thermostats, user settings, and/or a supplemental heating system. 13. A system for a combination space and water heater, the system comprising: a controller device including sensors and plumbing adapted to install between a hydronic heating coil and a water heater, wherein the controller device automatically infers thermal and physical properties of the water heater and the hydronic heating coil from measurements from the sensors, the controller device including a model of the water heater and the hydronic heating coil developed by the controller device from the measurements of the sensors, and the controller device configured to control operation of the combination space and water heater as a function of the model, and continually update the model using further sensor readings during the operation; wherein the controller device is configured to correlate measured heating loads with more than one of: environmental temperatures, thermostats, user settings, or a supplemental heating system by: automatically deducing hydronic heating coil characteristics through measurements of hydronic flow and hydronic and/or air-side temperatures; defining a thermal response of the coil; calculating a transient energy balance; iteratively updating the parameters from initial or manually adjusted settings based on an error in estimated energy balance; and defining a thermal response of the hydronic heating coil as a function of two or more constants to define coil capacity as a function of entering hydronic and air temperatures.