气候变化领域集成服务门户(CCPortal): A data driven management strategy to reduce the environmental impact of upstream production plants

CCPortal

DOI	10.2118/195615-ms
	A data driven management strategy to reduce the environmental impact of upstream production plants
	Cadei L.; Loffreno D.; Camarda G.; Montini M.; Rossi G.; Fier P.; Lupica D.; Corneo A.; Lancia L.; Milana D.; Carrettoni M.; Purlalli E.; Carduccu F.; Sophia G.
发表日期	2019
英文摘要	This paper highlights results of a first campaign of tests of an innovative tool to predict the short term trend of the energy efficiency index and the optimal management of an Oil&Gas production plant. The developed tool represents a step towards the Digital Transformation of the production plants by the integration of Big Data Analytics and Machine Learning methodologies with experts’ domain knowledge. The predictive model has two main features: produces a forecast of the energy efficiency index 3 hours into the future and supports the site engineers to take optimal management choices by highlighting the energy performances of the most energy-intensive equipment of the plant. The operator can use this information to act on the plant and reduce the overall energy consumption. The energy efficiency index is described by the Stationary Combustion CO2 Emission KPI [tCO2/kboe] that relates the consumed energy and the associated CO2 emission with the total production. A Gradient Boosting regression model is implemented and fed with a mix of autoregressive and exogenous real-time parameters. The paper shows the results obtained through a series of actions taken by production engineer, using the model's outputs on a real operating oilfield. The methodology entails a real-time run of the model to analyze the Stationary Combustion CO2 Emission Index trend, identifying a subset of equipment with abnormal/ atypical consumption. This activity is followed by a monitoring phase, where such subset of equipment is further analyzed in terms of energy consumption and main process parameter. The purpose of this phase is to identify a relevant set of actions. The final step requires interaction with the control room to act on the equipment operative parameters. Preliminary tests show the daily average CO2 emission from stationary combustion were reduced by 0,9%, with a peak reduction of 1,35%. The main advantages experimented by the first implementation tests are related to the significant reduction of CO2 emissions while granting the highest level of production, allowing a step towards the field carbon neutrality target. Copyright 2019, Society of Petroleum Engineers.
scopus关键词	Carbon dioxide; Combustion; Data Analytics; Energy utilization; Engineers; Environmental impact; Metadata; Regression analysis; Carbon neutralities; Digital transformation; Energy intensive equipments; Energy performance; Management strategies; Operative parameters; Optimal management; Predictive modeling; Energy efficiency
来源期刊	Society of Petroleum Engineers - SPE Norway One Day Seminar 2019
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/176232
作者单位	Eni SpA, Italy; Boston Consulting Group GAMMA, United States
推荐引用方式 GB/T 7714	Cadei L.,Loffreno D.,Camarda G.,et al. A data driven management strategy to reduce the environmental impact of upstream production plants[J],2019.
APA	Cadei L..,Loffreno D..,Camarda G..,Montini M..,Rossi G..,...&Sophia G..(2019).A data driven management strategy to reduce the environmental impact of upstream production plants.Society of Petroleum Engineers - SPE Norway One Day Seminar 2019.
MLA	Cadei L.,et al."A data driven management strategy to reduce the environmental impact of upstream production plants".Society of Petroleum Engineers - SPE Norway One Day Seminar 2019 (2019).