PATENT CLAIM ANALYSIS

Application Number: 15872214
Application Type: Utility
Filing Date: 2018-01
Publication Date: 2018-10
Patent Classification: ["707", "820000"]

Abstract:
Controlling flow of gas in a gas pipeline network, wherein flow of gas within each of the pipeline segments is associated with a direction (positive or negative). Processors calculate minimum and maximum production rates (bounds) at the gas production plant to satisfy an energy consumption constraint over a period of time. The production rate bounds are used to calculate minimum and maximum signed flow rates (bounds) for each pipeline segment. A nonlinear pressure drop relationship is linearized to create a linear pressure drop model for each pipeline segment. A network flow solution is calculated, using the linear pressure drop model, comprising flow rates for each pipeline segment to satisfy demand constraints and pressures for each of a plurality of network nodes over the period of time to satisfy pressure constraints. The network flow solution is associated with control element setpoints used to control one or more control elements.

Claim (Index 1):
A system for controlling flow of a gas in an industrial gas pipeline network to satisfy energy consumption constraints at an industrial gas production plant, comprising:\n a gas pipeline network comprising at least one gas production plant, at least one gas receipt facility of a customer, a plurality of pipeline segments, a plurality of network nodes, and a plurality of control elements, wherein flow of gas within each of the plurality of pipeline segments is associated with a direction, the direction being associated with a positive sign or a negative sign; one or more controllers; and one or more processors configured to:\n calculate a minimum gas production rate and a maximum gas production rate at the gas production plant to satisfy a constraint on consumption of an energy input over a period of time, the minimum gas production rate and the maximum gas production rate comprising bounds on a gas production rate for the plant; \n calculate a single minimum signed flow rate and a single maximum signed flow rate for each pipeline segment as a function of the minimum and maximum production rates of the gas production plants, the minimum signed flow rate constituting a lower bound for flow in each pipeline segment and the maximum signed flow rate constituting an upper bound for flow in each pipeline segment; \n linearize a nonlinear pressure drop relationship for each of the plurality of pipeline segments within the flow bounds to create a linear pressure drop model for each of the plurality of pipeline segments; and \n calculate a network flow solution, using the linear pressure drop model, comprising flow rates for each of the plurality of pipeline segments to satisfy demand constraints and pressure constraints for each of the plurality of network nodes over the period of time, the network flow solution being associated with control element setpoints; \n at least one of the controllers receiving data describing the control element setpoints; and controlling at least some of the plurality of control elements using the data describing the control element setpoints.

Metadata:
- Claim Count in Document: 11.0
- Percentile: 86.0
- Lexical Diversity: 2.2027
- Patent Class: 707.0
- Transitional Phrase Type: open
- Component Type: 1
- Foreign Priority: False
- Related Applications: ['15490308', '15490268', '15490344', '15864464', '15490394']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.2518648864370842
- 35 USC 102 Novelty (BERT): 0.541709097493407
- Combined Prediction Score: 0.2808493075427165
- Mean Citation Score: 355.014862
- Max Citation Score: 401.57965
- Similarity Product: 397.4645228783548

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 0
- Claim Label 112: 1
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test