Product Streams Management

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Product Streams Management 2016-10-19T10:00:14+00:00

Product Streams Management, is used to convert, aggregate, and process fluid streams. An unlimited number of streams based on any fluid model are handled seamlessly.

The molecular composition of product streams can be tracked at every point in the system, from individual well perforations to point of sales. The contributions from each field, group, well, and perforation can be extracted from any point in the system.

Conversion of reservoir production data between various descriptions such as black-oil (volumetric), compositional, and fiscal values is handled automatically. Input to models representing different parts of the system is converted to the appropriate fluid description.

Production Allocation

Pipe-It Production Allocation facilitates accurate partner revenue sharing through detailed compositional modeling of produced hydrocarbon streams from point of sale to reservoir, well, and perforation level.

Pipe-It Production Allocation Solution gives a detailed and up to date overview of your entire production system and enable more informed decisions based on consistent and accurate data.

This solution estimates the contribution of the field production of oil and gas to individual wells. Well tests and any other measured production data is used to estimate producing wellstream composition for individual wells. Compositional wellstreams are aggregated and processed through process simulation models representing the process facilities to yield accurate calculated sales product rates. Calculated and measured sales product rates are compared, and individual well contributions to the sales products are allocated, enabling accurate distribution of revenues between license partners.

PRODUCTION ALLOCATION FLYER
SPE 164334 – WELL TEST RATE CONVERSION TO COMPOSITIONAL WELLSTREAM

Product Streams Infrastructure

Product Streams Infrastructure is the foundation for Integrated Asset Modeling (IAM) and allows for a range of integration and optimization solutions to be built for an asset.

Petrostreamz Pipe-It technology is unique in the industry for providing accurate, efficient, comprehensive engineering and management of complex fluid systems. This technology is what separates Pipe-It from every other IAM software solution.

Manage Complex Fluid Streams Consistently

Pipe-It Product Streams Infrastructure provides consistent management of complex fluid streams:

  • Combine product streams from different sources.
    Track products and individual molecular components from source to market.
    Consistently convert between volumetric and compositional fluid descriptions needed by different discipline-specific engineering software.

IPA03-E-068 – IMPLEMENTATION OF STREAM MANAGEMENT AT SOUTH NATUNA SEA BLOCK B, INDONESIA

PVT Studies

Model based PVT studies start with PVT reports from laboratories that have conducted experiments on samples collected from wells either downhole or surface.

Pipe-It PVT Solution automates complex workflows such as managing a large number of samples, formatting sample data for PVT modeling tasks, and adjusting PVT properties to fit measured data.

This can then be used to determine the most efficient lumping scheme when constructing a simplified EOS to use in reservoir simulation.

SPE 63087 – GUIDELINES FOR CHOOSING COMPOSITIONAL AND BLACK-OIL MODELS FOR VOLATILE OIL AND GASCONDENSATE RESERVOIRS

SPE 84361 – STREAM CONVERSION FOR 3.5M CELL SIMULATION MODEL FOR PROCESS SIMULATION

SPE 159400 – DYNAMIC DELUMPING OF RESERVOIR SIMULATION

SPE 170912 – GLOBAL COMPONENT LUMPING FOR EOS CALCULATIONS

SPE 147072 – MODELING SAGD WITH A BLACK-OIL PROXY

SPE 155499 – PVT IN LIQUID-RICH SHALE RESERVOIRS

CO2 and H2S Management

Pipe-It CO2 and H2S Management Solution enables users to get the full overview of the CO2 and H2S amounts flowing through each part of the production system, at any point in time.

This further enables engineers to adjust production from individual wells to honor CO2 and H2S constraints throughout the system.

SPE-172725-MS – CO2 INJECTION PROJECT ANALYSIS USING APPLICATION OF INTEGRATED MODEL AND OPTIMIZATION