“Industry, Universities, Research and Application” Integration Brings about Independent Development of Large-scale Fracturing Equipment

doi:10.3969/j.issn.1002-302x.2021.03.016

Abstract

Abstract: Research and development of China’s fracturing equipment is committed to the engineering demands and based on the national science and technology major projects and integration of “industry, universities, research and application”. The enterprise is taken as the innovation backbone while the R&D team makes collaboration for innovation. The project management model is adopted to establish the target-oriented examination mechanism and make transformation of achievements on the basis of in-depth integration. As a result, the research efforts led to the fracturing pump technology with high reliability and long service life, the high-efficiency sand-mixing technology with a large displacement capacity, the super-high pressure manifold technology, and the high powered electric motor and frequency converting technology. Innovation also led to manufacture of the 5000-type electrically-powered fracturing assemblage, construction of the production line for electrically-powered fracturing units and the experiment platform, and establishment of the new service model. The systematic super-high powered electric fracturing units were put into large-scale application in the national major oil and gas engineering projects in Peiling, Weirong and Wulong, reducing the comprehensive cost by 30 percent. With the advantages of high power, high efficiency and low noise, the units ensured high-efficiency and cost-effective development of unconventional oil and gas in China.

摘要： 国内压裂设备研发坚持面向工程需求，依托国家科技重大专项，实施“产学研用”一体化攻关。以企业作为创新主体，研发团队协同创新，采用项目管理模式，建立目标导向考评机制，深度融合促成果转化。研究攻克了高可靠长寿命压裂泵技术、大排量高效混砂技术、超高压管汇技术、大功率电动机及变频技术，创新研制出5000型电动压裂机组，构建了电动压裂装置生产线及试验平台，创新了服务模式。超大功率电动成套压裂装备在涪陵、威荣、武隆等国家重大油气工程进行规模化应用，综合成本下降30%；具有功率大、效率高、噪声低等优势，为我国非常规油气高效低成本开发提供了装备保障。

关键词: 电动压裂, 产学研用, 页岩气开发, 自主研发

CLC Number:

Wang Junqiao, Wang Yunhai, Pan Lingyong, Zhang Bo. “Industry, Universities, Research and Application” Integration Brings about Independent Development of Large-scale Fracturing Equipment[J]. Petroleum Science and Technology Forum, 2021, 40(3): 129-133.

王峻乔　王云海　潘灵永　张波. “产学研用”一体化攻关实现大型压裂装备自主研发[J]. 石油科技论坛, 2021, 40(3): 129-133.

[1]	Zhao Xianzheng, Wang Hongyu, Liu Jichao, Lai Jishun. Research and Contemplation on How to Build Old Oilfields into Digital Intelligent Ones-- Take Dagang Oilfield for Example [J]. Petroleum Science and Technology Forum, 2021, 40(5): 1-8.
[2]	Hu Qiyue. Standardization Promotes Self-reliance of China’s Well Logging Technology [J]. Petroleum Science and Technology Forum, 2021, 40(5): 9-16.
[3]	Liu Yaxu, She Weijun, Qin Changyi, Du Wei, Xu Xiaofeng. Contemplation and Suggestions on Further Perfection of China’s Petroleum Industrial Standards and Authentication System Construction [J]. Petroleum Science and Technology Forum, 2021, 40(5): 17-21.
[4]	Zhang Kang, Zhang Liqin. The perspective of China’s oil and gas in the Energy Transition [J]. Petroleum Science and Technology Forum, 2021, 40(5): 22-33.
[5]	Si Guang, Liu Wentao, Ding Danhong, Zhang Yunyi, Jiang Xuemei, Yuan Chunhua, Ji Wenzhen. Research and Practice from Using Target Cost Control Method for Detailed Management of Well Engineering Projects [J]. Petroleum Science and Technology Forum, 2021, 40(5): 34-42.
[6]	Fan Xianghong, Niu Liquan, Jiang Huaiyou, Fu Xiaoqing, Li Xi, Dong Hua. Research on Application and Evaluation of Company’s Benchmark Scientific Instruments and Equipment [J]. Petroleum Science and Technology Forum, 2021, 40(5): 43-47.
[7]	Xiao Feng, Fu Yi, Yuan Lei, Zhang Yundong. Construction and Management of Overseas Technological Institutions by International Oilfield Service Companies [J]. Petroleum Science and Technology Forum, 2021, 40(5): 48-54.
[8]	Gou Liang, Zhang Shaohua, Yu Gang, Wang Ximing, An Shujie, Wu Junjun, Chen Yuanzhong. Optical Sensing Promotes Intelligence, Innovation and Development of Reservoir Geophysical Technology [J]. Petroleum Science and Technology Forum, 2021, 40(5): 55-64.
[9]	Hu Gui, Cui Mingyue, Tao Ye, Huang Xueqin, Zhang Guohui, Shi Libao. Progress in Oil and Gas Wellbore Engineering Data Platform Technology and Suggestions on In-depth Application of Data [J]. Petroleum Science and Technology Forum, 2021, 40(5): 65-72.
[10]	Jiang Huanhuan, Zhang Jie, Du Jieyu, Han Bing, Yuan Guohui, Xie Bo, Wang Tao, Yu Yue, Lu Kai. Innovation Practice from Efficient Exploration and Development of Blocks with Mining Rights Transferred within Petroleum Enterprises [J]. Petroleum Science and Technology Forum, 2021, 40(5): 73-78.
[11]	Yan Na, Li Qing. Development Process and Enlightenment of Baker Hughes Remote Services [J]. Petroleum Science and Technology Forum, 2021, 40(5): 79-84.
[12]	Li Zhongxing, Li Songquan, Liao Guangzhi, Tian Changbing, Wang Zhengmao, Shi Cheng’en, Lei Zhengdong, Liu Weidong, Yang Haien. Practice from Significant Experiment on Effective Development of Changqing Ultra-low Permeability Reservoirs [J]. Petroleum Science and Technology Forum, 2021, 40(4): 1-11.
[13]	Gou Liang, Zhang Shaohua, Li Xiangyang. Improving the Effectiveness of Shear-wave Seismic Exploration through Geophysical Technology Innovation [J]. Petroleum Science and Technology Forum, 2021, 40(4): 12-19.
[14]	Yan Lunjiang, Mao Yaming, Li Jianying, Wang Shunyi. Innovative Thinking and Suggestions on HSE Supervision Model under Digital Transformation [J]. Petroleum Science and Technology Forum, 2021, 40(4): 20-24.
[15]	Shi Buqing, Gao Feng, Yu Ling, Hu Xin, Zheng Xiaowu. Characteristics and Enlightenment of Technological Support Systems of International Oil Majors [J]. Petroleum Science and Technology Forum, 2021, 40(4): 25-31.

“Industry, Universities, Research and Application” Integration Brings about Independent Development of Large-scale Fracturing Equipment

“产学研用”一体化攻关实现大型压裂装备自主研发

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics