FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308987595> ?p ?o ?g. }

• W4308987595 abstract "Abstract Optimization of injection strategy for the giant fractured gas-condensate Karachaganak field is the focus of this paper. Numerous development alternatives were assessed using DPDK simulation model coupled with surface network and further optimized by integration with streamline analysis. Advanced risk assessment enabled to mitigate risks associated with high uncertainties in fracture distributions and complex clinoforms within the development area. Optimization results are compared to alternative models from JV partners, considering geological, surface facilities and project uncertainties. Four main workflows have been discussed; firstly, constructing DPDK model through integration of seismic, dynamic and petrophysical data to properly characterize fracture properties and reproduce reservoir connectivity. This process has been guided by advanced Design of Experiment to manage numerous uncertainties in history match and model selection. Secondly, coupling subsurface model with the surface network simulator and addressing re-routing challenges to generate realistic forecast and efficient production system. Thirdly, devising risk management workflow to ease decision making for the placement of future gas injectors, their completion designs and gauging benefits of different conformance control options. Lastly, finalizing injection strategy through using streamline-assisted optimization workflow under geological/surface facilities/project startup uncertainties. Key observations are: Alignment of stratigraphy and enhanced permeability/fracture distribution in DPDK and SPSK models helped in achieving comparable outcomes. Adoption of advanced risk analysis and early agreement with multi-disciplinary stakeholders on subsurface and surface uncertainty parameters for multiple available models enabled generating high-quality risk assessments. Benchmarking outcomes from standalone vs. coupled models is essential step to ensure reliability of coupled models. Re-routing of wells between processing units improves recovery. Agreement with Partners on the surface simulator (ENS) integrated with different subsurface simulators allows uninterrupted analysis of information. Automating dual connection due to frequent change in boundary processing conditions accelerates delivery of results. Frequent and well-prepared engagements with stakeholders improves communication and provides better management of expectations that helped meeting project deadlines. Confining gas injection inside outboard Clinoforms farther away from fractures is the most rewarding and safest option by minimizing gas breakthroughs and improving recovery. This work was proposed by KPO, and conducted by Chevron Karachaganak support team, in part, on request of the Karachaganak Petroleum Operating Company. It was used by the Karachaganak Petroleum Operating Company and JV partnership along with alternative models to support decision-making for the next phase of phase development – the Karachaganak Expansion Project. Evolution of optimized gas injection strategy under subsurface and surface uncertainties is reported. Remedy to mitigate limitation of ENS tool in handling change of boundary processing conditions is described. The novelty of streamline tracing-assisted gas injection optimization method applied to the DPDK model for gas injection optimization is described as mean of improving the management of fractured reservoir." @default.
• W4308987595 created "2022-11-20" @default.
• W4308987595 creator A5003620197 @default.
• W4308987595 creator A5052606353 @default.
• W4308987595 creator A5076405599 @default.
• W4308987595 date "2022-11-15" @default.
• W4308987595 modified "2023-10-01" @default.
• W4308987595 title "Development of Gas Injection Strategy Optimized Under Subsurface Uncertainties in Naturally Fractured Karachaganak Reservoir" @default.
• W4308987595 cites W1987677027 @default.
• W4308987595 cites W1991042706 @default.
• W4308987595 cites W2326571800 @default.
• W4308987595 cites W2545797474 @default.
• W4308987595 cites W2591376697 @default.
• W4308987595 cites W2763061428 @default.
• W4308987595 cites W2805309271 @default.
• W4308987595 cites W2807575648 @default.
• W4308987595 cites W3097454518 @default.
• W4308987595 cites W4226538745 @default.
• W4308987595 doi "https://doi.org/10.2118/212061-ms" @default.
• W4308987595 hasPublicationYear "2022" @default.
• W4308987595 type Work @default.
• W4308987595 citedByCount "0" @default.
• W4308987595 crossrefType "proceedings-article" @default.
• W4308987595 hasAuthorship W4308987595A5003620197 @default.
• W4308987595 hasAuthorship W4308987595A5052606353 @default.
• W4308987595 hasAuthorship W4308987595A5076405599 @default.
• W4308987595 hasConcept C112930515 @default.
• W4308987595 hasConcept C127413603 @default.
• W4308987595 hasConcept C144133560 @default.
• W4308987595 hasConcept C162324750 @default.
• W4308987595 hasConcept C162853370 @default.
• W4308987595 hasConcept C177212765 @default.
• W4308987595 hasConcept C187736073 @default.
• W4308987595 hasConcept C201995342 @default.
• W4308987595 hasConcept C2778668878 @default.
• W4308987595 hasConcept C32896092 @default.
• W4308987595 hasConcept C41008148 @default.
• W4308987595 hasConcept C71924100 @default.
• W4308987595 hasConcept C77088390 @default.
• W4308987595 hasConcept C78762247 @default.
• W4308987595 hasConcept C86251818 @default.
• W4308987595 hasConceptScore W4308987595C112930515 @default.
• W4308987595 hasConceptScore W4308987595C127413603 @default.
• W4308987595 hasConceptScore W4308987595C144133560 @default.
• W4308987595 hasConceptScore W4308987595C162324750 @default.
• W4308987595 hasConceptScore W4308987595C162853370 @default.
• W4308987595 hasConceptScore W4308987595C177212765 @default.
• W4308987595 hasConceptScore W4308987595C187736073 @default.
• W4308987595 hasConceptScore W4308987595C201995342 @default.
• W4308987595 hasConceptScore W4308987595C2778668878 @default.
• W4308987595 hasConceptScore W4308987595C32896092 @default.
• W4308987595 hasConceptScore W4308987595C41008148 @default.
• W4308987595 hasConceptScore W4308987595C71924100 @default.
• W4308987595 hasConceptScore W4308987595C77088390 @default.
• W4308987595 hasConceptScore W4308987595C78762247 @default.
• W4308987595 hasConceptScore W4308987595C86251818 @default.
• W4308987595 hasLocation W43089875951 @default.
• W4308987595 hasOpenAccess W4308987595 @default.
• W4308987595 hasPrimaryLocation W43089875951 @default.
• W4308987595 hasRelatedWork W1537716277 @default.
• W4308987595 hasRelatedWork W2061328397 @default.
• W4308987595 hasRelatedWork W2428494321 @default.
• W4308987595 hasRelatedWork W2542544475 @default.
• W4308987595 hasRelatedWork W2602179377 @default.
• W4308987595 hasRelatedWork W3009603553 @default.
• W4308987595 hasRelatedWork W4200454022 @default.
• W4308987595 hasRelatedWork W4206693874 @default.
• W4308987595 hasRelatedWork W4224223525 @default.
• W4308987595 hasRelatedWork W2188763513 @default.
• W4308987595 isParatext "false" @default.
• W4308987595 isRetracted "false" @default.
• W4308987595 workType "article" @default.