市場調査レポート
商品コード
1346105
石油増進回収用ナノ粒子の世界市場の評価:タイプ別、注入別、添加剤別、地域別、機会、予測(2016年~2030年)Enhanced Oil Recovery Nanoparticles Market Assessment, By Type, By Injection, By Additive, By Region, Opportunities and Forecast, 2016-2030F |
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石油増進回収用ナノ粒子の世界市場の評価:タイプ別、注入別、添加剤別、地域別、機会、予測(2016年~2030年) |
出版日: 2023年09月08日
発行: Market Xcel - Markets and Data
ページ情報: 英文 144 Pages
納期: 3~5営業日
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世界の石油増進回収用ナノ粒子の市場規模は、2022年の1億430万米ドルから2030年に3億3,260万米ドルに達し、予測期間の2023年~2030年にCAGRで15.6%の成長が予測されています。
COVID-19の大流行は、世界中で石油・ガスの移動、生産、探査に前例のない結果をもたらしました。オンショアとオフショアの石油回収エリアにおける労働力とプレゼンスの低下により、サプライチェーンと輸送にギャップが生じています。例えば、米国エネルギー情報局によると、2020年の米国における原油の1日当たりの年間平均生産は1,130万バレルで、2019年の1,220万バレル/日に比べて8%減少しました。この影響を打ち消すため、政府は石油回収を増進する費用対効果の高い技術を導入するための一定の規制を策定しました。ナノ粒子は、さまざまな油層で石油回収を増進するために調査されうるユニークな特性で構成されています。発生による損失を補うため、企業は技術を向上させ、石油増進回収に応用できる新しいナノ粒子を開発しています。こうした取り組みは、今後数年間、市場に大きな機会をもたらす見込みです。
ロシアのウクライナ併合は、さまざまなエネルギー産業で不確実性をもたらし、石油のサプライチェーンとその流通網を混乱させています。2020年、ロシアは平均1,050万バレル/日の液体燃料を供給する石油・ガス最大級の生産国でした。しかし、この侵攻は米国と欧州連合(EU)によるロシアのエネルギーに対する制裁につながり、ロシアから他国への石油輸出は約3分の2に削減されました。このため欧米諸国は、革新的なEOR技術の導入による油層や油井からの石油回収の増進への投資を開始しました。こうして、ナノ粒子などの革新的技術の採用が欧州や北米などの地域で増加し、2022年の石油生産の急増につながっています。
例えば、米国エネルギー情報局によると、2022年の世界の原油年間生産は9,985万バレル/日で、9,569万バレル/日と比較して年間成長率は4.34%でした。したがって、ロシア・ウクライナ戦争によるロシアの石油輸入からのシフト、原油生産増加のための政府措置の増加などの重大な要因は、市場に有利な機会をもたらしました。
当レポートでは、石油増進回収用ナノ粒子市場について調査分析し、市場規模と予測、市場力学、主要企業の情勢と見通しなどを提供しています。
Global Enhanced Oil Recovery Nanoparticles Market size was valued at USD 104.3 million in 2022, expected to reach USD 332.6 million in 2030 with a CAGR of 15.6% for the forecast period, 2023 -2030. Primary and secondary oil recovery methods help extract conventional oil and gas. Primary and secondary methods can recover oil by 30% and 60% of oil initially in place (OIIP). The role of tertiary oil recovery techniques called enhanced oil recovery (EOR) becomes prominent for unconventional oil and gas where it can recover up to 75% of OIIP.
Nanoparticles are considered as a green alternative to conventional polymers and chemicals for enhanced oil recovery (EOR). Under the inorganic nanoparticles, nano silica particles are abundant as they have flexible properties of resembling hydrophobic and hydrophilic, as required for oil extractions. Injection of silica nanoparticles can improve microscopic displacements by altering various parameters such as reducing interfacial tension between oil and water, and desired wettability variations. Celluloses under the category of organic nanoparticles are highly effective in improving macroscopic sweep efficiency by enhancing viscosity of injected water.
High mobility of carbon dioxide occurs in ultra-low permeability reservoirs which causes severe gas channeling during carbon dioxide flooding. Mobility control becomes an important parameter to enhance oil recovery, in which there are conventional processes to reduce carbon dioxide gas channeling such as polymer injection, gas injection, etc. These methods are accompanied by certain limitations as the heterogenous appearance of reservoirs makes extraction exacerbated leading to less sweep efficiency. Responsive nanoparticles provide various functional characteristics such as surface action, wettability, and pressure reduction, among others.
Responsive nanoparticles are developed by modifying nano-silica (silica oxide) using 3-aminopropyltrimethoxysilane (KH540) through Eschweiler-Clark reaction (Methylation Process). Electrostatic interaction in the responsive nanoparticles resembles a remarkable nanoparticle dispersity control. It shows a perfect plugging capacity of around 93.3% for carbon dioxide mobility control and more than 26% for oil recovery. The excellent characteristic of developed responsive nanoparticles unveils immense potential of enhance oil recovery during flooding of carbon dioxide in ultra-low permeability reservoirs. The unique properties of nanoparticles for tertiary oil recovery can create incredible opportunities to gain experience in the oil and gas market.
Nanoparticles possess unique characteristics such as higher ratio of surface-to-volume, nano particle size, etc., which is gaining considerable importance in enhancing the tertiary oil recovery (EOR). These nanoparticles can be used either as additive or as nanofluid flooding where nanoparticles of single phase (solid, liquid, or gas) disperse in continuous medium of another phase. Super magnetic iron oxide nanoparticles and petroleum sulfonate surfactants are nano-encapsulated to produce a hybrid nano-surfactant in high salinity water (56,000 ppm). The novel designed nanocomponents are highly effective in enhancing the residual oil mobilization by altering rock's wettability along with reducing the interfacial tension (IFT).
Encapsulation methods are employed to bind nanoparticles in the respective surfactants and assist in improving enhanced oil recovery (EOR). Under the internal encapsulation method (IEM), nanoparticles are encapsulated in the oil core of the nano-surfactant droplets producing significant hybrid structure. This novel hybrid technique can be explored across various oil reservoirs and basins to extract oil from the deep down of rocks. There are favorable parameters relevant to the technique for nanoparticles market to create more opportunities for expansion.
The COVID-19 pandemic has led to unprecedented consequences on the mobility, production, and exploration of oil and gas globally. The gaps have been created in the supply chain and transportation due to reduction in labor workforce and presence in the onshore and offshore oil recovery area. For instance, according to the U.S. Energy Information Administration, in 2020, the average annual per day production of crude oil in the United States was 11.3 million barrels, a decline of 8% in comparison to 12.2 million b/d per day in 2019. To counteract the impact, the governments produced certain regulations to implement cost-effective technologies in enhancing oil recovery. Nanoparticles are composed of unique properties which can be explored to enhance oil recovery in different oil reservoirs. To compensate for the loss due to the outbreak, the companies are improving their technologies to develop a new range of nanoparticles for application in enhanced oil recovery. These initiatives will create prominent opportunities for the enhanced oil recovery nanoparticles market in the coming years.
The annexation of Russia on Ukraine has been developing uncertainties across various energy industries. It has disrupted oil supply chains and their distribution network. In 2020, Russia was one of the largest producers of oil and gas with an average of 10.5 million barrels of liquid fuel every day. However, the invasion led to sanctions on Russian energy by United States and European Union by cutting around two-third Russia's oil export to other countries. With immediate ban, Western countries began investing in enhancing their oil recovery from the oil reservoirs and wells by implementing innovative EOR technologies. Thus, the adoption of innovative technologies such as nanoparticles increased in regions such as Europe and North America, which led to a surge in oil production in 2022.
For instance, according to the U.S. Energy Information Administration, in 2022, the global annual production of crude oil was 99.85 million barrels per day, representing an annual growth rate of 4.34% as compared to 95.69 million barrels per day. Therefore, prominent factors such as the shift from Russian oil imports, increasing government measures to increase crude oil production, and others due to the Russia-Ukraine war created a lucrative opportunity for the enhanced oil recovery nanoparticles market.
Enhance oil recovery (EOR) nanoparticles are being continuously implemented by major large oil volume processing companies and startup companies to improve the oil recovery process. For instance, Interface Fluidics, a successful Canadian startup assist in providing reservoir fluid analysis for the oil and gas industry through its proprietary nanofluid technology, which is effective in recognizing the structure of oil and gas reservoirs. Furthermore, Aramco, a global leader in the oil industry has explicitly obtained a solution for enhancing oil recovery by implementing nanoparticles in its chemical flooding practices. They have developed hybrid nano-surfactant by encapsulating iron oxide nanoparticles and petroleum sulfonate surfactants. Likewise, there are companies who are investing in enhancing oil recovery nanoparticles via various flooding mechanism and developing multiple opportunities for the market to expand which fascinates more companies to develop in such technologies.
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