Energy saving-exhaust control and auto shut off system

What is claimed is: 1. A method of increasing an efficiency of an exhaust ventilation system that comprises an exhaust ventilation fan that generates a ventilating force in an exhaust ventilation system duct, an exhaust ventilation system controller, and a plurality of exhaust ventilation points coupled to the exhaust ventilation system duct, each exhaust ventilation point having an exhaust ventilation load, a controllable damper, an exhaust ventilation point ductwork coupled to the controllable damper and to the exhaust ventilation system duct, a differential pressure sensor, a piece of equipment having an equipment ON/OFF switch and that generates fumes and is ventilated by the exhaust ventilation point ductwork, a system airflow sensor coupled to the exhaust ventilation system duct and an exhaust ventilation point controller coupled to the controllable damper, the differential pressure sensor, the system airflow sensor and the ON/OFF switch, the method comprising: reducing, by the exhaust ventilation system controller, the ventilation force generated by the exhaust ventilation fan in response to detecting a reduction in the exhaust ventilation load of at least one exhaust ventilation point, selectively adjusting a speed of the exhaust ventilation fan such that the system airflow sensor reads a predetermined level regardless of a current position of each damper in each of the exhaust ventilation points, and selectively adjusting the damper of each exhaust ventilation point such that the differential pressure sensor of each exhaust ventilation point reads a predetermined level. 2. The method of claim 1 , wherein detecting a reduction in the exhaust ventilation load of at least one exhaust ventilation point comprises detecting that the controllable damper of the at least one exhaust ventilation point has closed. 3. The method of claim 1 , wherein detecting a reduction in the exhaust ventilation load of at least one exhaust ventilation point comprises detecting that the differential pressure across the controllable damper of the at least one exhaust ventilation point indicates that the controllable damper has closed. 4. The method of claim 1 , wherein detecting a reduction in the exhaust ventilation load of at least one exhaust ventilation point comprises detecting that the ON/OFF switch for the piece of equipment that is ventilated by the at least one exhaust ventilation point has changed to the OFF position. 5. The method of claim 4 , further comprising delaying the reducing of the exhaust ventilation force for a predetermined period of time after detecting that the ON/OFF switch has changed to the OFF position. 6. The method of claim 1 , wherein the at least one exhaust ventilation point further comprises a fume detector coupled to the exhaust ventilation point controller, and detecting a reduction in the exhaust ventilation load of the at least one exhaust ventilation point further comprises determining that fumes detected by the fume detector are below a predetermined threshold value. 7. The method of claim 6 , wherein detecting a reduction in the exhaust ventilation load of at least one exhaust ventilation point further comprises determining that fumes detected by the fume detector have remained below a predetermined threshold value for a first predetermined period of time. 8. The method of claim 7 , wherein detecting a reduction in the exhaust ventilation load of at least one exhaust ventilation point further comprises the exhaust ventilation point controller determining that fumes detected by the fume detector have remained below a predetermined threshold value for a second predetermined period of time, shorter than the first predetermined period time, during a window of time that the equipment is scheduled for non-operation. 9. A non-transitory computer-readable medium programmed with processor-executable instructions that, when executed, implement a method of increasing an efficiency of an exhaust ventilation system that comprises an exhaust ventilation fan that generates a ventilating force in an exhaust ventilation system duct, an exhaust ventilation system controller, and a plurality of exhaust ventilation points coupled to the exhaust ventilation system duct, each exhaust ventilation point having an exhaust ventilation load, a controllable damper, an exhaust ventilation point ductwork coupled to the controllable damper and to the exhaust ventilation system duct, a differential pressure sensor, a piece of equipment having an equipment ON/OFF switch and that generates fumes and is ventilated by the exhaust ventilation point ductwork, a system airflow sensor coupled to the exhaust ventilation system duct, and an exhaust ventilation point controller coupled to the controllable damper, the differential pressure sensor, the system airflow sensor and the ON/OFF switch, the method comprising: reducing, by the exhaust ventilation system controller, the ventilation force generated by the exhaust ventilation fan in response to detecting a reduction in the exhaust ventilation load of at least one exhaust ventilation point, selectively adjusting a speed of the exhaust ventilation fan such that the system airflow sensor reads a predetermined level regardless of a current position of each damper in each of the exhaust ventilation points, and selectively adjusting the damper of each exhaust ventilation point such that the differential pressure sensor of each exhaust ventilation point reads a predetermined level. 10. A system for increasing the efficiency of an exhaust ventilation of an area, the system comprising: a. an exhaust ventilation system controller; b. an exhaust ventilation fan coupled to a system of ductwork and operably coupled to the exhaust ventilation system controller, wherein the exhaust ventilation fan generates an exhaust ventilation force in the system of ductwork; c. a plurality of exhaust ventilation points coupled to the system of ductwork each exhaust ventilation point comprising: i. a piece of equipment, wherein the piece of equipment generates and outputs fumes and includes an ON/OFF switch, further wherein the exhaust ventilation point has an exhaust ventilation load corresponding to the piece of equipment; ii. exhaust ventilation point ductwork coupled to the system of ductwork and positioned proximate the piece of equipment to collect the fumes; iii. an exhaust ventilation point controller communicatively coupled to the exhaust ventilation system controller and coupled to the ON/OFF switch of the piece of equipment ventilated by the exhaust ventilation point; iv. a damper coupled to the exhaust ventilation point ductwork and coupled to the exhaust ventilation point controller; and v. a differential pressure sensor coupled to the exhaust ventilation point ductwork and to the exhaust ventilation point controller; and vi. a system airflow sensor coupled to the system of ductwork and to the exhaust ventilation system controller; wherein the exhaust ventilation system controller is configured to reduce the exhaust ventilation force generated by the exhaust ventilation fan in response to detecting a reduction in the exhaust ventilation load for at least one of the plurality of exhaust ventilation points, wherein the exhaust ventilation system controller is further configured to selectively adjust a speed of the exhaust ventilation fan such that the system airflow sensor reads a predetermined level regardless of a current position of each damper in each of the exhaust ventilation points, and the exhaust ventilation system controller is further configured to selectively adjust the damper of each exhaust ventilation point such that the differential pressure sensor of each exhaust ventilation point reads a pre