市場調查報告書
商品編碼
1423232
2024-2032 年按技術(熱力強化石油採收率、氣體強化石油採收率、化學強化石油採收率等)、應用(陸上、海上)和地區分類的強化石油採收率市場報告Enhanced Oil Recovery Market Report by Technology (Thermal-Enhanced Oil Recovery, Gas-Enhanced Oil Recovery, Chemical-Enhanced Oil Recovery, and Others), Application (Onshore, Offshore), and Region 2024-2032 |
2023年,全球提高石油採收率(EOR)市場規模達到591億美元。展望未來, IMARC Group預計到2032年市場規模將達到1,110億美元,2024-2032年複合年成長率(CAGR)為7% 。老化井數量不斷增加、現有油田石油產量下降、新型 EOR 技術的不斷發展以及對提高石油產量的需求不斷成長是推動市場的一些主要因素。
提高石油採收率(EOR)是指石油和天然氣產業採用的一套先進技術,從油藏中提取超出常規方法可採收量的額外碳氫化合物。 EOR 策略旨在透過改變油藏條件和流體行為來最大限度地提高產量。常見的 EOR 方法包括熱注入、化學注入和混相氣體注入。熱方法(例如蒸汽注入)可以提高油藏溫度以降低石油黏度,從而更容易流動。化學方法涉及注入聚合物或表面活性劑來改變流體性質,有助於驅油。混相氣體注入通常使用二氧化碳或氮氣,可增強石油流動性並降低油藏內的阻力。 EOR 技術技術含量高且針對特定地點,需要考慮儲層特徵、流體成分和經濟可行性等因素。
全球市場受到提高石油產量的需求不斷成長的推動。老化油井數量不斷增加以及現有油田石油產量不斷下降,導致全球對提高採收率 (EOR) 解決方案的需求不斷增加。與傳統的石油開採方法相比,這些解決方案展現了顯著提高整體產量的卓越能力。 EOR 技術在增加成熟油藏的滲透率、促進碳氫化合物更順暢地移動、從而提高石油採收率方面發揮關鍵作用。此外,EOR 專案通常需要在技術、設備和研究方面進行大量前期投資。當有可用的投資和資金時,可以透過支持這些項目的開發和實施來推動 EOR 市場。此外,化學、熱力和微生物 EOR 等新型 EOR 技術的發展可以為石油採收帶來新的機會並刺激市場成長。此外,EOR 技術不僅限於常規油藏。它們還可以應用於頁岩油和稠油等非常規油藏,擴大潛在市場。
枯竭的油藏和成熟的油田
幾個常規油田已經生產了幾十年,由於自然油藏壓力損耗導致產量下降。隨著油藏老化,剩餘的石油被困在複雜的岩層中,使得使用傳統方法開採變得困難。 EOR 技術,特別是熱法,包括蒸汽注入,透過降低石油黏度並促進其轉移到生產井來提供解決方案。這個促進因素在傳統石油生產已趨於穩定的地區尤為明顯,因為 EOR 提供了一種可行的策略來延長這些油田的生產壽命並挖掘以前無法開採的儲量。因此,維持和增加成熟油田石油產量的迫切需求推動了 EOR 技術市場的發展。
持續的技術進步與創新
EOR 市場受惠於旨在提高採收率、最佳化注入策略和降低營運成本的持續研發工作。油藏建模和模擬工具的進步使工程師能夠更好地了解油藏行為並設計量身定做的 EOR 策略。此外,奈米技術的突破為改進化學劑鋪平了道路,這些化學劑具有更大的能力來改變流體行為和驅替被困的石油。油井設計和完井技術的創新也有助於 EOR 方法的有效部署。隨著石油業擁抱數位化和自動化,資料分析和機器學習的整合進一步增強了 EOR 流程的有效性。透過技術創新提高產量和減少環境影響的承諾是吸引投資並推動 EOR 市場向前發展的強大驅動力。
支持性監管和環境因素
各國政府認知到透過提高採收率方法延長現有油田壽命的價值,因為這種方法符合能源安全和經濟成長目標。此外,隨著對溫室氣體排放和碳足跡的擔憂加劇,二氧化碳 (CO2) 注入等 EOR 技術也越來越受到重視。二氧化碳是各種工業製程的副產品,可以捕獲並用於 EOR,具有提高石油採收率和碳捕獲和封存的雙重效益。鼓勵利用二氧化碳進行 EOR 的財政誘因、稅收減免和監管框架進一步激勵了這些方法的採用。能源安全、環境管理和監管支持的整合為 EOR 市場的成長創造了有利的前景,使其成為尋求與永續實踐保持一致的石油公司的一個有吸引力的主張。
The global enhanced oil recovery (EOR) market size reached US$ 59.1 Billion in 2023. Looking forward, IMARC Group expects the market to reach US$ 111.0 Billion by 2032, exhibiting a growth rate (CAGR) of 7% during 2024-2032. The escalating number of aging wells coupled with the declining oil output from existing oilfields, continual developments of novel EOR techniques, and the rising demand for enhanced oil production are some of the major factors propelling the market.
Enhanced oil recovery (EOR) refers to a set of advanced techniques employed in the oil and gas industry to extract additional hydrocarbons from reservoirs beyond what can be recovered using conventional methods. EOR strategies aim to maximize production by altering reservoir conditions and fluid behavior. Common EOR methods include thermal, chemical, and miscible gas injection. Thermal methods, such as steam injection, increase the reservoir temperature to reduce oil viscosity, enabling easier flow. Chemical methods involve injecting polymers or surfactants to modify fluid properties, aiding in oil displacement. Miscible gas injection, typically using carbon dioxide or nitrogen, enhances oil mobility and reduces resistance within the reservoir. EOR techniques are highly technical and site-specific, considering factors, such as reservoir characteristics, fluid composition, and economic feasibility.
The global market is driven by the rising demand for enhanced oil production. The escalating number of aging wells and the declining oil output from existing oilfields have generated a heightened need for enhanced oil recovery (EOR) solutions worldwide. These solutions have exhibited a remarkable capacity to significantly amplify overall production compared to traditional oil extraction methods. EOR technologies play a pivotal role in augmenting the permeability of mature oil reservoirs, facilitating smoother hydrocarbon movement, and thereby boosting oil recovery rates. Moreover, EOR projects often require significant upfront investments in technology, equipment, and research. When there is available investment and funding, it can boost the EOR market by supporting the development and implementation of these projects. Furthermore, the development of novel EOR techniques, such as chemical, thermal, and microbial EOR, can open up new opportunities for oil recovery and stimulate market growth. Also, EOR techniques are not limited to conventional oil reservoirs. They can also be applied to unconventional reservoirs like shale oil and heavy oil deposits, expanding the potential market.
Depleting Reservoirs and Maturing Oil Fields
Several conventional oil fields have been in production for decades, leading to declining production rates due to natural reservoir pressure depletion. As reservoirs age, the remaining oil becomes trapped in complex rock formations, making it challenging to recover using conventional methods. EOR techniques, particularly thermal methods, including steam injection, provide a solution by reducing oil viscosity and facilitating its movement to production wells. This driver is especially pronounced in regions where conventional oil production has plateaued, as EOR offers a viable strategy to extend the productive life of these fields and tap into previously unrecoverable reserves. The market for EOR technologies is thus propelled by the urgent need to sustain and increase oil production from mature fields.
Continual Technological Advancements and Innovations
The EOR market benefits from ongoing research and development efforts aimed at enhancing recovery rates, optimizing injection strategies, and reducing operational costs. Advancements in reservoir modeling and simulation tools enable engineers to better understand reservoir behavior and design tailored EOR strategies. Additionally, breakthroughs in nanotechnology have paved the way for improved chemical agents with greater capabilities to alter fluid behavior and displace trapped oil. Innovations in well design and completion techniques also contribute to the efficient deployment of EOR methods. As the oil industry embraces digitalization and automation, the integration of data analytics and machine learning further augments the effectiveness of EOR processes. The promise of higher yields and reduced environmental impact through technological innovation acts as a strong driver, attracting investment and propelling the EOR market forward.
Supportive Regulatory and Environmental Factors
Governments recognize the value of extending the life of existing oil fields through enhanced recovery methods, as this approach aligns with energy security and economic growth goals. Moreover, as concerns about greenhouse gas emissions and carbon footprint intensify, EOR techniques such as carbon dioxide (CO2) injection gain prominence. CO2, a byproduct of various industrial processes, can be captured and utilized for EOR, offering a dual benefit of enhanced oil recovery and carbon capture and storage. Financial incentives, tax breaks, and regulatory frameworks that encourage CO2 utilization for EOR further incentivize the adoption of these methods. The convergence of energy security, environmental stewardship, and regulatory support establishes a favorable landscape for the growth of the EOR market, making it an attractive proposition for oil companies looking to align with sustainable practices.
IMARC Group provides an analysis of the key trends in each segment of the global enhanced oil recovery (EOR) market report, along with forecasts at the global and regional levels from 2024-2032. Our report has categorized the market based on technology and application.
Thermal-Enhanced Oil Recovery
Gas-Enhanced Oil Recovery
Chemical-Enhanced Oil Recovery
Others
Thermal-enhanced recovery dominates the market
The report has provided a detailed breakup and analysis of the market based on the technology. This includes thermal-enhanced oil recovery, gas-enhanced oil recovery, chemical-enhanced oil recovery, and others. According to the report, thermal-enhanced oil recovery represented the largest segment.
The thermal-enhanced recovery methodology entails the strategic application of heat to the subsurface reservoir, a process designed to catalyze the reduction of crude oil viscosity, streamline its flow dynamics, and ultimately facilitate its extraction. Steam injection, the vanguard of thermal-enhanced recovery, has carved its niche as an exceptionally potent strategy across a spectrum of reservoir types, encompassing heavy oil deposits, tar sands, and even conventional oil fields. By infusing reservoirs with high-pressure steam, the thermal equilibrium of the encompassing rock and oil is raised, leading to a noticeable drop in oil viscosity. This transformative effect eases the oil's movement towards production wells, thereby escalating recovery rates appreciably. The ascendancy of thermal-enhanced recovery methodologies is further underpinned by the evolution of steam generation technologies, fostering greater efficiency and adept distribution of heat throughout the reservoir matrix.
Onshore
Offshore
Onshore holds the largest share of the market
A detailed breakup and analysis of the market based on the application has also been provided in the report. This includes onshore and offshore. According to the report, onshore accounted for the largest market share.
Onshore reservoirs possess unique attributes that favor the deployment of EOR techniques. They tend to be more accessible for the establishment of infrastructure, including injection and production wells, pipelines, and treatment facilities. This proximity enables efficient implementation and monitoring of EOR operations, contributing to enhanced control over processes and recovery outcomes. Moreover, the geological and reservoir characteristics of onshore fields often align well with various EOR methods. Thermal EOR, such as steam injection, can be readily applied to unlock heavy and viscous oils found in many onshore reservoirs. Similarly, chemical and gas based EOR techniques can be adapted to the specific conditions of onshore formations, optimizing recovery rates and resource utilization. Logistical advantages also play a pivotal role in the prominence of onshore EOR. Transportation of equipment, personnel, and resources is generally simpler and more cost-effective on land, leading to reduced operational complexities compared to offshore operations that require specialized vessels and facilities.
North America
Europe
Asia Pacific
Middle East and Africa
Latin America
North America exhibits a clear dominance, accounting for the largest enhanced oil recovery market share
The report has also provided a comprehensive analysis of all the major regional markets, which include North America, Europe, Asia Pacific, Middle East and Africa, and Latin America. According to the report, North America accounted for the largest market share.
North America collectively possesses a wealth of diverse oil reservoirs spanning conventional fields, heavy oil deposits, and shale formations. This diverse resource base provides a fertile ground for the application of various EOR techniques tailored to specific reservoir characteristics. North America's technological leadership in EOR methods, notably thermal methods, including steam and in-situ combustion, further solidifies its pre-eminence. Pioneering research and innovation in reservoir simulation, chemical agents, and well design have given rise to sophisticated EOR strategies, propelling recovery rates and shaping the market landscape. Moreover, the presence of well-developed transportation networks, refineries, and distribution systems facilitates the integration of EOR processes into existing operations, thereby reducing implementation barriers. Moreover, North America's favorable regulatory environment, driven by a mix of innovation incentives and energy security imperatives, augments its EOR endeavors.
EOR companies are heavily investing in research and development to innovate and improve existing EOR techniques. They focus on developing new chemical agents, optimizing injection strategies, and refining reservoir simulation and modeling technologies. R&D efforts aim to increase the efficiency, effectiveness, and applicability of EOR methods to various reservoir types. Furthermore, major companies are working to develop and implement advanced technologies such as data analytics, artificial intelligence, and machine learning to enhance reservoir characterization, optimize injection rates, and predict production behavior. These technologies help operators make informed decisions and adapt EOR strategies in real-time, improving overall recovery rates. EOR companies often conduct pilot projects and field trials to test the feasibility and effectiveness of new EOR techniques in actual reservoir conditions. These projects provide valuable data and insights that guide further development and scaling up of successful methods.
Basf Se
Halliburton Corporation
Royal Dutch Shell Plc
Schlumberger Ltd.
Chevron Phillips Chemical Corporation
Fmc Technologies Inc.
National Aluminium Company Limited (NALCO)
Praxair Inc.
Secure Energy Services Inc.
Xytel Corporation
Equinor ASA
BP Plc
China Petroleum & Chemical Corporation (Sinopec)
Oil and Natural Gas Corporation Ltd. (ONGC)
ExxonMobil Corporation
ConocoPhillips
Petroleo Brasileiro (Petrobas) S.A.
PJSC Lukoil Oil Company
In February 2023, Basf Se launched high-pressure regenerative CO2 capture technology HiPACT. The technology efficiently captures CO2 from hydrogen production process gas using natural gas as feedstock, reducing capture costs by releasing CO2 off gas above atmospheric pressure. It boasts high-temperature durability and absorption performance. The recovered CO2 enhances gas recovery in depleted fields via CCUS, promoting effective Carbon Capture and Storage (CCS).
In February 2023, China Petroleum & Chemical Corporation (Sinopec) launched the world's largest green hydrogen-coal chemical project. The Project utilized the rich solar and wind energy resources to produce green hydrogen directly, projecting to reach an annual production capacity of 30,000 tons of green hydrogen and 240,000 tons of green oxygen, which will be used for the carbon reduction initiatives of the adjacent ZTHC Energy intensive coal processing pilot project.
In June 2023, Halliburton Corporation announced an agreement on leading well construction automation solutions. By combining Nabors' drilling process automation and digital solutions with Halliburton's sub-surface expertise, this agreement aims to achieve well construction efficiencies through consistent and repeatable outcomes.