Abstract: Described is a system and methodology, in which information is exchanged and/or updated within data-driven engineering schematics and various data management systems within an operating facility. The integration of plant data management systems with data-driven engineering schematics, such as piping and instrumentation diagram (P&ID), process flow diagrams (PFDs) and isometric drawings is an innovation that provides numerous benefits to multiple plant disciplines, including but not limited to Engineering, Operations, Maintenance, Procurement, Environmental, and Safety personnel. In addition to data exchange, described methods and systems within the graphical user interface are capable of generating alerts and initiating to changes to resolve data inconsistencies for a particular component represented in two or more data systems.

Abstract: Described is a system and methodology, in which information is exchanged and/or updated within data-driven engineering schematics and various data management systems within an operating facility. The integration of plant data management systems with data-driven engineering schematics, such as piping and instrumentation diagram (P&ID), process flow diagrams (PFDs) and isometric drawings is an innovation that provides numerous benefits to multiple plant disciplines, including but not limited to Engineering, Operations, Maintenance, Procurement, Environmental, and Safety personnel. In addition to data exchange, described methods and systems within the graphical user interface are capable of generating alerts and initiating to changes to resolve data inconsistencies for a particular component represented in two or more data systems.

Abstract: Described is a system and methodology, in which information is exchanged and/or updated within data-driven engineering schematics and various data management systems within an operating facility. The integration of plant data management systems with data-driven engineering schematics, such as piping and instrumentation diagram (P&ID), process flow diagrams (PFDs) and isometric drawings is an innovation that provides numerous benefits to multiple plant disciplines, including but not limited to Engineering, Operations, Maintenance, Procurement, Environmental, and Safety personnel. In addition to data exchange, described methods and systems within the graphical user interface are capable of generating alerts and initiating to changes to resolve data inconsistencies for a particular component represented in two or more data systems.

Abstract: Described is a system and methodology, in which information is exchanged and/or updated within data-driven engineering schematics and various data management systems within an operating facility. The integration of plant data management systems with data-driven engineering schematics, such as piping and instrumentation diagram (P&ID), process flow diagrams (PFDs) and isometric drawings is an innovation that provides numerous benefits to multiple plant disciplines, including but not limited to Engineering, Operations, Maintenance, Procurement, Environmental, and Safety personnel. In addition to data exchange, described methods and systems within the graphical user interface are capable of generating alerts and initiating to changes to resolve data inconsistencies for a particular component represented in two or more data systems.

Abstract: A system and method for performing environmental, health, and safety regulation compliance assessments, recordkeeping, and reporting from “data-driven” engineering drawings (i.e., intelligent P&ID/PFD systems). EH&S regulations include but are not limited to USEPA Clean Air Act regulations, such as Leak Detection and Repair (LDAR), Benzene Waste Operations NESHAP (BWON), and the Greenhouse Gas Mandatory Reporting Rule (GHG MRR), as well as regulations administered by OSHA, such as Process Safety Management (PSM). These regulations are commonly enforced within such industries as the petroleum refining, petrochemical, chemical, upstream oil and gas, or other related manufacturing industries. In order to determine compliance with those regulations, information stored within the engineering CAD drawing is queried in terms of specific drawing entities, or the components that comprise a specific process which is detailed on said drawing (i.e.

Abstract: A system and method for performing environmental, health, and safety regulation compliance assessments, recordkeeping, and reporting from “data-driven” engineering drawings (i.e., intelligent P&ID/PFD systems). EH&S regulations include but are not limited to USEPA Clean Air Act regulations, such as Leak Detection and Repair (LDAR), Benzene Waste Operations NESHAP (BWON), and the Greenhouse Gas Mandatory Reporting Rule (GHG MRR), as well as regulations administered by OSHA, such as Process Safety Management (PSM). These regulations are commonly enforced within such industries as the petroleum refining, petrochemical, chemical, upstream oil and gas, or other related manufacturing industries. In order to determine compliance with those regulations, information stored within the engineering CAD drawing is queried in terms of specific drawing entities, or the components that comprise a specific process which is detailed on said drawing (i.e.