Coordinated control of HVAC system using aggregated system demand

The invention claimed is: 1. An HVAC system comprising: a plurality of HVAC components; a plurality of terminal units, at least one terminal unit of the plurality of terminal units associated with each HVAC component of the plurality of HVAC components; a control system comprising: a coordination module; and a controller operably associated with the coordination module and in signal communication with the plurality of HVAC components and associated terminal units, the controller configured to: determine an aggregated thermal demand of the HVAC system; determine, with the coordination module, an operational setpoint for at least one HVAC component of the plurality of HVAC components based on the determined aggregated thermal demand; and send a signal indicative of each determined operational setpoint to each associated HVAC component of the plurality of HVAC components; wherein the plurality of HVAC components comprises a capacity generation plant, a fluid circulation pump, and ventilation equipment; wherein the coordination module includes a cooling mode module and a heating mode module; wherein determining the operational setpoint for at least one of the plurality of HVAC components comprises at least one of: (i) determining one or more setpoints to be sent to the capacity generation plant, wherein the controller is configured to set the capacity generation plant to a minimum effort setpoint below a low demand threshold (La), increase the effort setpoint from the low demand threshold (La) to a high demand threshold (Ha) and to set a maximum effort setpoint beyond the high demand threshold (Ha); (ii) determining one or more setpoints to be sent to the fluid circulation pump, wherein the controller is configured to set the pump to a minimum effort setpoint below a low demand threshold (Lb), increase the effort setpoint from the low demand threshold (Lb) to a high demand threshold (Hb) and to set a maximum effort setpoint beyond the high demand threshold (Hb); (iii) determining one or more setpoints to be sent to the ventilation equipment that treats fresh air from outside, wherein when the capacity generation plant is operated in cooling mode, a supply air setpoint (SATsp) is determined by the sum of the maximum room air temperature setpoint amongst all zones and the air duct losses/gains, and wherein when the capacity generation plant is operated in heating mode, a supply air setpoint (SATsp) is determined by the sum of the minimum room air temperature setpoint amongst all zones and the air duct losses/gains. 2. The HVAC system of claim 1 , wherein the controller is configured to update the operational setpoints at predetermined time intervals. 3. The HVAC system of claim 1 , wherein the ventilation equipment comprises an air handling unit. 4. The HVAC system of claim 1 , wherein determining the aggregated thermal demand of the HVAC system comprises determining an aggregated thermal demand of the one or more terminal units. 5. A method of controlling an HVAC system having a plurality of HVAC components and a plurality of terminal units, at least one terminal unit of the plurality of terminal units associated with each HVAC component of the plurality of HVAC components, a coordination module, and a controller operably associated with the coordination module and in signal communication with the plurality of HVAC components and the plurality of terminal units, the method comprising: determining an aggregated thermal demand of the HVAC system; determining, with the coordination module, an operational setpoint for at least one HVAC component of the plurality of HVAC components based on the determined aggregated thermal demand; and subsequently operating each HVAC component of the plurality of HVAC components at the determined operational setpoint; wherein the plurality of HVAC components comprises a capacity generation plant, a fluid circulation pump, and ventilation equipment; wherein the coordination module includes a cooling mode module and a heating mode module; wherein determining the operational setpoint for at least one of the plurality of HVAC components comprises at least one of: (i) determining one or more setpoints to be sent to the capacity generation plant, wherein the controller is configured to set the capacity generation plant to a minimum effort setpoint below a low demand threshold (La), increase the effort setpoint from the low demand threshold (La) to a high demand threshold (Ha) and to set a maximum effort setpoint beyond the high demand threshold (Ha); (ii) determining one or more setpoints to be sent to the fluid circulation pump, wherein the controller is configured to set the pump to a minimum effort setpoint below a low demand threshold (Lb), increase the effort setpoint from the low demand threshold (Lb) to a high demand threshold (Hb) and to set a maximum effort setpoint beyond the high demand threshold (Hb); (iii) determining one or more setpoints to be sent to the ventilation equipment that treats fresh air from outside, wherein when the capacity generation plant is operated in cooling mode, a supply air setpoint (SATsp) is determined by the sum of the maximum room air temperature setpoint amongst all zones and the air duct losses/gains, and wherein when the capacity generation plant is operated in heating mode, a supply air setpoint (SATsp) is determined by the sum of the minimum room air temperature setpoint amongst all zones and the air duct losses/gains. 6. The method of claim 5 , further comprising updating the operational setpoints at predetermined time intervals. 7. The method of claim 5 , wherein the ventilation equipment comprises an air handling unit. 8. The method of claim 5 , wherein the operational setpoint for the capacity generation plant is a water temperature, the operational setpoint for the pump is a water pressure, and the operational setpoint for the air handling unit is a supply air temperature. 9. The method of claim 5 , wherein said determining an aggregated thermal demand comprises determining an aggregated thermal demand of the plurality of terminal units. 10. The method of claim 5 , wherein said determining an aggregated thermal demand of the HVAC system comprises: determining if the capacity generation plant is being operated in a cooling mode or a heating mode; measuring an air temperature of the zone; and dividing the product of a number of the plurality terminal units operating in the cooling mode or the heating mode and the difference between a zone air temperature setpoint and a measured zone air temperature, by the total number of the plurality of terminal units associated with the plurality of HVAC components.