[1] Liggio J, Li S M, Staebler R M, et al. Measured Canadian oil sands CO2 emissions are higher than estimates made using internationally recommended methods[J]. Nat Commun, 2019(10):1863-1871.
[2] IEA. Global energy review 2021[EB/OL]. [2021-09-16].https://www.iea.org/reports/global-energy-review-2021
[3] Kenner D, Heede R. White knights, or horsemen of the apocalypse? Prospects for Big Oil to align emissions with a 1.5℃ pathway[J]. Energy Research & Social Science, 2021(79).
[4] Environmental Integrity Project. Analysis of 2019 data on greenhouse gases from oil, gas, and petrochemical production[R]. (2020-12-17)[2021-09-12]. https://environmentalintegrity.org/wp-content/uploads/2020/12/ Oil-and-Gas-Industry- Greenhouse-Gas-report-12.17.2020.pdf.
[5] 胡文瑞. 新能源是能源变革的最佳选择[J]. 高科技与产业化, 2021, 27 (1): 14-17.
Hu Wenrui. New energy is the optimal choice for energy reform[J]. High-Technology & Commercialization, 2021, 27 (1): 14-17.
[6] 王聪生. 未来能源与数字化转型[J]. 高科技与产业化, 2021, 27 (2): 43-45.
Wang Congsheng. China’s future energy and digital transformation[J]. High-Technology & Commercialization, 2021, 27 (2): 43-45.
[7] 张能鲲,张资卓. 中国能源发展巨变与低碳转型新使命[J]. 新经济导刊, 2021 (2): 16-23.
Zhang Nengkun, Zhang Zizhuo.Significant changes in China’s energy development and new mission of low-carbon transformation[J]. New Economy Weekly, 2021 (2):16-23.
[8] Ekholm B, Rockstrom J. Digital technology can cut global emissions by 15%[EB/OL].[2021-09-16]. https://www.weforum.org/agenda/2019/01/why-digitalization-is-the-key-to-exponential-climate-action/.
[9] Schneider Electric. Global digital transformation benefits report[R]. 2019.
[10] Accenture. Digital transformation initiative: oil and gas industry[R]. 2017.
[11] 闫娜,蒋海军,王敏生. 埃尼公司数字化转型的经验及启示[J]. 国际石油经济, 2020, 28 (9): 33-40.
Yan Na, Jiang Haijun, Wang Minsheng. Experience and enlightenments of Eni’s digital transformation[J]. International Petroleum Economics, 2020, 28 (9): 33-40.
[12] Hongfang L, Lijun G, Yitong Z. Oil and gas companies’ low-carbon emission transition to integrated energy companies[J]. Science of The Total Environment, 2019(686):1202-1209.
[13] 段学彬. 智能平台在油田节能管理中的应用[J]. 石油石化节能, 2019, 9 (5): 24-28.
Duan Xuebin. Application of intelligent platform for energy-saving management of oilfields[J]. Energy Conservation in Petroleum & Petrochemical Industry, 2019, 9 (5): 24-28.
[14] 匡立春,刘合,任义丽,等. 人工智能在石油勘探开发领域的应用现状与发展趋势[J]. 石油勘探与开发, 2021, 48 (1): 1-11.
Kuang Lichun, Liu He, Ren Yili, et al. Application and development trend of artificial intelligence in petroleum exploration and development[J].Petroleum Exploration and Development, 2021, 48 (1): 1-11.
[15] 刘亭亭,赵旭涛. 智能炼化企业建设:Ⅰ.炼化一体化的智能化[J]. 石化技术与应用, 2020, 38 (2): 147-152.
Liu Tingting, Zhao Xutao.Construction of intelligent refining and chemical enterprise: Ⅰ. Intellectualization of refining and chemical integration[J]. Petrochemical Technology & Application, 2020, 38 (2): 147-152.
[16] 龚燕,杨维军,王如强,等. 我国智能炼厂技术现状及展望[J]. 石油科技论坛, 2018, 37 (3): 28-33.
Gong Yan, Yang Weijun, Wang Ruqiang, et al. Present conditions and prospect of China’s intelligent refinery Technology[J]. Oil Forum, 2018, 37 (3): 28-33.
[17] 陈溯,安鹏,吴刚,等. 海上智能油田建设研究[J]. 石油科技论坛, 2020, 39(5): 16-23.
Chen Su, An Peng, Wu Gang, et al. Research on offshore intelligent oilfield construction[J]. Petroleum Science and Technology Forum, 2020, 39(5): 16-23.
[18] 王同良. 油气行业数字化转型实践与思考[J].石油科技论坛, 2020, 39(1): 29-33.
Wang Tongliang. Practice and thinking of oil and gas industrial digitalization transformation[J]. Petroleum Science and Technology Forum, 2020, 39(1): 29-33.
[19] 中金:数字经济助力碳中和[EB/OL].(2021-04-07)[2021-09-16]. https://new.qq.com/rain/a/20210407A01GSM00.
CICC: Digital economy helpful to carbon neutrality[EB/OL].(2021-04-07)[2021-09-16]. https://new.qq.com/rain/a/ 20210407A01GSM00.
|