System and method for compressor scheduling

The invention claimed is: 1. A tangible, non-transitory computer readable medium comprising computer instructions stored thereon, the computer instructions, when executed by a processor, are configured to cause the processor to: retrieve model inputs indicative of mechanical systems data, economic data, contractual data, and regulatory data associated with at least one compression system configured to compress natural gas, wherein: the mechanical systems data comprises at least one of: a size of a compressor included in the at least one compression system, a health of the compressor, an operational life expectancy of the compressor, a pressure of gas entering the at least one compression system, a size of a compressor driver included in the at least one compression system, a health of the compressor driver, an operational life expectancy of the compressor driver, manufacturer specification values corresponding to the at least one compression system, sensor data for the at least one compression system, logged data for the at least one compression system, or pipeline data, or any combination thereof; the economic data comprises at least one of: a price of natural gas, a monetary value for operating the at least one compression system based on a threshold value, costs for replacing one or more components of the at least one compression system, currency conversion rates between countries, green credits, an energy futures value, or market valuations for energy, or any combination thereof; the contractual data comprises at least one of: a threshold quantity of natural gas delivered to a client, a maximum time for which the natural gas can be stored in a storage facility, or storage costs, or any combination thereof; and the regulatory data comprises at least one of: an upper quantitative limit in the natural gas produced per year, an upper quantitative limit in emissions generated when producing the natural gas, operator goals, weather forecast data, machine performance regulatory data, or health related regulatory data, or any combination thereof; retrieve a model configured to derive an operation schedule for the at least one compression system based on the model inputs, wherein the model comprises: {dot over (m)} flow =J (η j ,C j ,f [ x 1i , . . . ,x mi ], g [ y 1i , . . . ,y nj ], gas economics, etc.); derive the operation schedule for the at least one compression system based on the model inputs and the model; and apply the operation schedule to the at least one compression system, wherein the at least one compression system is configured to operate at a mass flow rate and/or a pressure based on the operation schedule. 2. The computer readable medium of claim 1 , wherein the computer instructions configured to cause the processor to retrieve the model inputs comprise computer instructions configured to cause the processor to retrieve the model inputs at or near real-time. 3. The computer readable medium of claim 1 , wherein the at least one compression system comprises the compressor and the compressor driver coupled to the compressor and configured to drive the compressor, wherein the compressor is configured to control a flow of gas into a storage facility, a gas reservoir, a gas transportation system, or any combination thereof. 4. The computer readable medium of claim 3 , wherein the compressor is a reciprocating compressor or a centrifugal compressor and the compressor driver is an internal combustion engine (ICE), a gas turbine, or an electric motor. 5. The computer readable medium of claim 1 , wherein the computer instructions configured to cause the processor to retrieve the model inputs comprise computer instructions configured to cause the processor to retrieve the economic data comprising the price of natural gas and the regulatory data comprising the upper quantitative limit in the natural gas produced per year or the upper quantitative limit in emissions generated when producing the natural gas. 6. The computer readable medium of claim 1 , wherein the operation schedule comprises the pressure of the at least one compression system. 7. The computer readable medium of claim 1 , wherein the computer instructions configured to cause the processor to derive the operation schedule comprise calculating, via relationships established between the model inputs, the mass flow rate for the at least one compression system. 8. The computer readable medium of claim 1 , wherein the operation schedule comprises a time of operation of the at least one compression system. 9. A method comprising: retrieving, via a processor, model inputs indicative of balance of plant data mechanical systems data, economic data, contractual data, and regulatory data associated with at least one compression system configured to compress natural gas, wherein: the mechanical systems data comprises at least one of: a size of a compressor included in the at least one compression system, a health of the compressor, an operational life expectancy of the compressor, a pressure of gas entering the at least one compression system, a size of a compressor driver included in the at least one compression system, a health of the compressor driver, an operational life expectancy of the compressor driver, manufacturer specification values corresponding to the at least one compression system, sensor data for the at least one compression system, logged data for the at least one compression system, or pipeline data, or any combination thereof; the economic data comprises at least one of: a price of natural gas, a monetary value for operating the at least one compression system based on a threshold value, costs for replacing one or more components of the at least one compression system, currency conversion rates between countries, green credits, an energy futures value, or market valuations for energy, or any combination thereof; the contractual data comprises at least one of: a threshold quantity of natural gas delivered to a client, a maximum time for which the natural gas can be stored in a storage facility, or storage costs, or any combination thereof; and the regulatory data comprises at least one of: an upper quantitative limit in the natural gas produced per year, an upper quantitative limit in emissions generated when producing the natural gas, operator goals, weather forecast data, machine performance regulatory data, or health related regulatory data, or any combination thereof; retrieving, via the processor, a model configured to derive an operation schedule for the at least one compression system based on the model inputs, wherein the model comprises: {dot over (m)} flow =J (η j ,C j ,f [ x 1i , . . . ,x mi ], g [ y 1i , . . . ,y nj ], gas economics, etc.); deriving, via the processor, the operation schedule for the at least one compression system based on the model inputs and the model; and applying, via the processor, the operation schedule to the at least one compression system, wherein the at least one compression system is configured to operate at a mass flow rate and/or a pressure based on the operation schedule. 10. The method of claim 9 , wherein deriving the operation schedule comprises performing calculations to turn on a first set of the at least one compression system and maintain off a second set of the at least one compression system. 11. The method of claim 10 , wherein deriving the operation schedule comprises determining the mass flow rate for natural gas flowing through each compressor in the first set of the at least one compression system. 12. The method of claim 11 , wherein determining the mass flow rate comprises performing