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Production Optimization Using an In-Situ Steam Generator in a Rejuvenated Heavy Oil Field.

机译：在充满生气的重油田中使用现场蒸汽发生器进行生产优化。

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Steam stimulation is by far the most widely used tertiary oil recovery method. Heavy oil finds its most effective way of production in thermal recovery method. Also with technical effectiveness, steam stimulation brings in cost effectiveness. In-situ steam generation and injection is the most important enhancement to the conventional thermal steam injection technique. Blackbird(TM) Energy LLC, has developed and a new generation in-situ steam generator with a view to make an almost unproductive heavy oil reservoir in North East Texas to start producing.;In this research, a reservoir simulation study has been performed to history match of pure depletion as well as three months of thermal stimulation done on the reservoir. To mimic the reservoir conditions, Schlumberger Eclipse 300 compositional Simulator has been used. Overall this research performs an evaluation of the newly developed in-situ steam generator capabilities.;The various predictive runs have been made with changing key performance parameters such as location of steam generator and time of application of thermal energy. There has been reported a considerable increase in production of the heavy oil. As a result, in-situ steam injection has been proved to be an effective and environment friendly recovery technique and should be widely considered for replacing conventional steam generators.

机译：蒸汽刺激是迄今为止最广泛使用的三次采油方法。在热采方法中，重油找到了其最有效的生产方式。同样具有技术效力，蒸汽刺激带来了成本效益。原位蒸汽产生和注入是对常规热蒸汽注入技术最重要的增强。 Blackbird（TM）Energy LLC公司已经开发了新一代的现场蒸汽发生器，以期在德克萨斯州东北部建立一个几乎不生产的重油油藏并开始生产。纯耗以及储层三个月的热增产的历史匹配。为了模拟储层条件，已使用斯伦贝谢Eclipse 300组分模拟器。总体而言，该研究对新开发的现场蒸汽发生器的性能进行了评估。通过更改关键性能参数（例如蒸汽发生器的位置和热能的施加时间）来进行各种预测性运行。据报道，重油的产量大大增加。结果，现场蒸汽注入已被证明是一种有效且环境友好的回收技术，应被广泛考虑用于替代常规蒸汽发生器。

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作者
Bujarbarua, Vikram.;
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作者单位

University of Louisiana at Lafayette.;

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授予单位 University of Louisiana at Lafayette.;
学科 Petroleum engineering.;Engineering.
学位 M.S.
年度 2015
页码 87 p.
总页数 87
原文格式 PDF
正文语种 eng
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1. In-situ recovery of heavy-oil from fractured carbonate reservoirs: Optimization of steam-over-solvent injection method [J] . Al-Gosayir M., Babadagli T., Leung J., Journal of Petroleum Science & Engineering . 2015,第Null期

机译：从裂缝性碳酸盐岩油藏中现场开采重油：溶剂蒸汽注入法的优化
2. In-Situ Upgrading of Heavy Oil/Bitumen During Steam Injection by Use of Metal Nanoparticles: A Study on In-Situ Catalysis and Catalyst Transportation [J] . Y. Hamedi Shokrlu, T. Babadagli SPE Reservoir Evaluation & Engineering . 2013,第3期

机译：金属纳米粒子注蒸汽过程中重油/位的原位改性：原位催化和催化剂运输的研究
3. Numerical Simulation for Optimizing Injection - Production Parameters When Using Cyclic Steam Injection Plus Polymer Gel Flooding in An Offshore Heavy-Oil Field [J] . Zhou Yanxia, Lu Xiangguo, Wang Rongjian, Chemistry and Technology of Fuels and Oils . 2017,第4期

机译：用循环蒸汽喷射加工参数优化注射生产参数的数值模拟。近海重油场中的聚合物凝胶洪水
4. In-Situ Steam Generation A New Technology Application for Heavy Oil Production [C] . Ayman R. Al-Nakhli, Luai A. Sukkar, James Arukhe SPE Heavy Oil Conference and Exhibition . 2016

机译：原位蒸汽发电一项新技术应用重油生产
5. Experimental studies of steam and steam-propane injection using a novel smart horizontal producer to enhance oil production in the San Ardo field. [D] . Rivero Diaz, Jose Antonio. 2007

机译：使用新型智能卧式采油器提高圣阿多油田采油量的蒸汽和蒸汽丙烷注入的实验研究。
6. Minimising hydrogen sulphide generation during steam assisted production of heavy oil [O] . Wren Montgomery, Mark A. Sephton, Jonathan S. Watson, -1

机译：在蒸汽辅助生产重油的过程中最大限度地减少硫化氢的产生
7. Analysis on the Main Influential Factors of Post-steam In-situ Combustion Performance in Heavy Oil Reservoir [O] . Fang ZHAO, Changfeng XI, Xialin ZHANG, 2021

机译：蒸汽后蒸汽主要影响因素的分析原位的燃烧性能燃烧性能
8. Environmental Assessment of an Enhanced Oil Recovery Steam Generator Equipped with an EPA (Environmental Protection Agency) Heavy Oil Low-NOx Burner. Volume 2. Data Supplement [R] . Castaldini, C. , Waterland, L. R. , DeRosier, R. 1986

机译：增强型油回收蒸汽发生器的环境评估配备Epa（环境保护局）重油低NOx燃烧器。第2卷。数据补充

Production Optimization Using an In-Situ Steam Generator in a Rejuvenated Heavy Oil Field.

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