Potential Peak Instantaneous Vapor Flow Rate definition

Potential Peak Instantaneous Vapor Flow Rate means the maximum instantaneous rate of vapors routed to a Vapor Control System during Normal Operations, including flashing, working, and standing losses, as determined using the Modeling Guideline.

Potential Peak Instantaneous Vapor Flow Rate means the maximum instantaneous rate of vapors routed to a Vapor Control System during Normal Operations, including flashing, working, and standing losses, as determined using the Open Loop Modeling Guideline developed pursuant to Appendix B, Paragraph 1.

Potential Peak Instantaneous Vapor Flow Rate or “PPIVFR” shall mean the maximum instantaneous rate of vapors routed to a Vapor Control System during Normal Operations, including flashing, working, breathing, and standing losses, as determined according to an Engineering Evaluation.

Examples of Potential Peak Instantaneous Vapor Flow Rate in a sentence

• The purpose of the Modeling Guideline is to determine Potential Peak Instantaneous Vapor Flow Rate for purposes of designing and adequately sizing Vapor Control Systems and to provide procedures for achieving this objective.

• Noble shall ensure that the modifications result in a Vapor Control System that is adequately designed and sized to handle the Potential Peak Instantaneous Vapor Flow Rate, as determined through application of an Engineering Design Standard.

• The purpose of the Open Loop Modeling Guideline is to determine Potential Peak Instantaneous Vapor Flow Rate for purposes of designing and adequately sizing Vapor Control Systems and to provide procedures for achieving this objective.

• PDC shall ensure that each Vapor Control System is adequately designed and sized to handle the Potential Peak Instantaneous Vapor Flow Rate, as determined through application of an Engineering Design Standard.

• PDC shall then apply an appropriate Engineering Design Standard to determine if the existing Vapor Control System at each Tank System is adequately designed and sized to handle the Potential Peak Instantaneous Vapor Flow Rate that was calculated through the subparagraph 10.a application of the Modeling Guideline (“Engineering Evaluation”).

More Definitions of Potential Peak Instantaneous Vapor Flow Rate

Potential Peak Instantaneous Vapor Flow Rate means the maximum instantaneous amount of vapors routed to a Vapor Control System during

Potential Peak Instantaneous Vapor Flow Rate or “PPIVFR” means the maximum instantaneous rate of vapors routed to a Vapor Control System during Normal Operations, including flashing, working, and breathing losses, and other applicable vapor sources (including Bypass Gas) as determined using the Open Loop Modeling Guideline.

Potential Peak Instantaneous Vapor Flow Rate or “PPIVFR” means the maximum instantaneous rate of vapors routed to a Vapor Control System during Normal Operations, including flashing, working, breathing, and standing losses, as determined using the Open Loop Vapor Control System Modeling Guideline.

Potential Peak Instantaneous Vapor Flow Rate means the maximum instantaneous rate of vapors routed to a Vapor Control System during Normal Operations, including flashing, working, and standing losses, as determined using the Open Loop Modeling Guideline developed pursuant to Paragraph10.

Potential Peak Instantaneous Vapor Flow Rate or “PPIVFR” shall mean the maximum instantaneous rate of vapors predicted to be routed from a Storage Vessel System to a control device or Routed to a Process during

Potential Peak Instantaneous Vapor Flow Rate means the maximum instantaneous amount of vapors from a Tank System during normal operations, including flashing, working, breathing, and standing losses, as determined using the Modeling Guideline.

Potential Peak Instantaneous Vapor Flow Rate or “PPIVFR” shall mean the maximum instantaneous rate of vapors routed to a Vapor Control System during Normal Operations, including flashing, working, breathing or standing losses, as determined using the Open Loop Vapor Control System Modeling Guideline.