Research
Safe and efficient design, construction and operation of an integrated fuels infrastructure (RP3.2)
Projects
- RP3.2-14: What is “hydrogen ready”? Definitions and guidance for a consistent methodology for the licensing of hydrogen pipelines
- RP3.2-13: Ammonia pipelines – review of dispersion characteristics and threat mitigation
- RP3.2-12 Addressing hydrogen blending issues: gas mixing, demixing and hydrogen analysis
- RP3.10-03: Development of a ductile damage-based fracture initiation model for natural gas and hydrogen transmission pipelines
- RP3.2-11: Fitness for Service assessment of repurposed pipelines to Hydrogen
- RP3.2-10: Hydrogen Pipeline Code of Practice: Design, Construction and Operation
- RP3.2-04B: Cohesive Gas Impurities – Phase 2
- RP3.2-09: Biomethane Impurities
- RP3.2-08: Development of efficient and effective methodologies for the abandonment of pipelines
- RP3.2-04: Deposition of Cohesive Gas Impurities in pipelines carrying coal seam gas
- RP3.2-07: Metering and gas quality monitoring of future fuel blends
- RP3.2-06: Development of a New Fracture Propagation Model
- RP3.2-05C: Pipeline Tensile strain capacity – Project 3 Predictive Tool
- RP3.2-05B: Pipeline Tensile strain capacity – Project 2 Experimental evaluation
- RP3.2-05A: Pipeline Tensile strain capacity – Project 1 Literature review
- RP3.2-03: The online AS 2885 handbook
- RP3.2-02: Assessment of future fuel decompression behaviour
- RP3.2-01: Proximity and ventilation requirements for fuel networks