FRINK Linked Data Fragments server

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• W2070298532 abstract "Summary The prevalent trend in the petroleum industry towards field development has incorporated a synergistric approach towards evaluating reservoirs. In August, 1988 Conoco's Casper Division took this approach of integrating the geoscience and engineering disciplines by creating four enhanced oil recovery (EOR) study teams. Their mission was to determine the economic feasibility of CO2 injection, improve secondary recovery operations, increase operating gain and identify areas with development potential in pre-selected reservoirs. As part of this team concept, a computer network was created to assist the engineers and geologists in compiling and processing the massive amounts of data needed for the reservoir studies. The network was designed using databases distributed among multiple servers. In essence, this network provides a Reservoir Evaluation Workstation, provides a Reservoir Evaluation Workstation, which can be used interactively from each individuals office. A wide range of software programs, i.e. interpretation tools, can be programs, i.e. interpretation tools, can be accessed with direct ties to the project database. The network effectively connects personal computers (PC's), databases and a micro VAX iii computer into one integrated system. Introduction Four reservoir evaluation studies have been conducted in Conoco's Casper Division during the past year as indicated in Figure 1. Each study past year as indicated in Figure 1. Each study begins with a data collection phase, proceeds with a detailed geologic/engineering study, and concludes with a plan of development to, maximize the value of this asset to Conoco. EOR is considered for each property. For the most part, these reservoirs are CO2 flood candidates. Each reservoir study is conducted by a team consisting of a production engineer, an engineering aide, a geologist, a reservoir engineer, and modeler. The production engineer evaluates wells and surface facilities and is the only team member with regular involvement in the daily operations of the field. The other four team members are able to devote all of their time to the evaluation project. The engineering aide has proven to be a most valuable asset, especially during the tedious task of loading the data into the project database and in digitizing maps and logs. The geologist and the reservoir engineer are jointly responsible for preparing a detailed reservoir performance. The preparing a detailed reservoir performance. The analyzing past reservoir performance. The reservoir modeler then works with both to verify or refine the reservoir description. This is done matching the production history with a numerical model. The model is then used to forecast reservoir performance under various development strategies. Economic analysis is used to select the final plan of development. PROJECT DATABASE PROJECT DATABASE A project database was created to organize and store data used by each study team. First, she database and network requirements had to be defined. Roughly nine-man months were spent to design the database structure to meet the reservoir study objectives, define the network requirements and install the system. The Oracle database management system was chosen because it was PC compatible in the fastest operating system (UNIX) and it allowed the distributed network databases to interconnect with workstations running DOS. The decision to go with distributed PC databases rather than one large database running on a VAX was based on economics. it was determined that a multiple PC database server was cheaper based on a performance-to-cost ratio." @default.
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• W2070298532 title "Use of a Relational Database on a PC Network for Reservoir Studies" @default.
• W2070298532 doi "https://doi.org/10.2118/20346-pa" @default.
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