市場調査レポート
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貯留層解析市場-貯留層タイプ別、サービス別、用途別、地域別、競合別に区分した世界の産業規模、シェア、動向、機会、予測、2018~2028年Reservoir Analysis Market-Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented By Reservoir Type, By Service, By Application, By Region and Competition |
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貯留層解析市場-貯留層タイプ別、サービス別、用途別、地域別、競合別に区分した世界の産業規模、シェア、動向、機会、予測、2018~2028年 |
出版日: 2023年10月03日
発行: TechSci Research
ページ情報: 英文 170 Pages
納期: 2~3営業日
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世界の貯留層解析市場は、世界規模でのエネルギー需要の増加により、予測期間である2024年から2028年にかけて安定したペースで成長すると予測されています。
さらに、既成の石油・ガス田への集中の高まりと、新産業の爆発的な成長が、さまざまな地理的地域における市場成長の原動力となっています。
ベネズエラの石油埋蔵量は世界最大で、確認埋蔵量は3,000億バレルを超え、これは全世界の資源量の17.5%に相当し、2011年にはサウジアラビアを抜いて世界トップに立っています。
岩石層中の石油・ガスの集積を石油・ガス貯留層といわれています。石油・ガスを集めた小さな岩石の間隙は、貯留層の上下にある不透水性の岩石層によって封鎖されています。石油を含む巨大な空洞は存在しないため、典型的な油層は石油の地下「プール」や「湖」ではないです。炭化水素貯留層」という用語は、石油・ガスの埋蔵量を表すのにも使われます。源泉岩、貯留岩、キャップ岩は、従来の炭化水素貯留層の3つの基本的な構成要素です。石油・ガスが生成されるケロゲンを保持する岩石は、原岩として知られています。石油・ガスを保持する多孔質で浸透性の岩石層は、貯留岩として知られています。水はしばしば底部を密閉するが、キャップロックは上部と側面を密閉し、炭化水素を貯留層に閉じ込める。
市場概要 | |
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予測期間 | 2024~2028年 |
市場規模 | 51億米ドル |
2028年の市場規模 | 79億9,000万米ドル |
CAGR 2023~2028年 | 6.9% |
急成長セグメント | オンショア |
最大市場 | 北米 |
掘削・探査技術の大幅な進歩により、生産者は貯留層流体や地層に関する最先端技術を利用して、生産・回収方法を最適化できるようになっています。生産に利用される最先端のツールや機器には、精密ポンプ、地層反応試験機、機械的完全性試験機、ダイナリンク・テレメトリー・システムなどがあります。フィールド性能、体積計算、確率論的モデルを提供し、情報へのアクセシビリティと信頼性を高めると同時に、信頼性と精度の向上を実現しています。坑井検層、コア解析、流体特性などのさまざまな基礎データを収集、処理、組み合わせて、より精度の高い物理学的、地質学的、工学的データを作成するプロセスは、貯留層の正確な評価につながります。したがって、技術の進歩は生産と探査活動に大きな影響を及ぼしています。
この市場拡大の主な要因は、電力消費の増加と炭化水素回収の必要性の高まりです。例えば、B.P.統計解析「世界エネルギーレポート2019」によると、北米の一人当たり一次エネルギー消費量は、2017年の235.3ギガジュール/人(G.J./Capita)から2018年には239.8GJ/人(G.J./Capita)へと1.9%増加しました。さらに2018年、北米の石油生産量は2,016万バレル/日(BPD)から2,259万BPDに増加しました。したがって、石油・ガスの生産と探査活動が増加するにつれて、エネルギーと水素回収の需要も増加し、化石燃料の大規模な抽出が必要となります。その結果、石油・ガス産業の探査・生産活動の拡大がエネルギーと水素回収の需要を高め、貯留層解析市場に拍車をかけています。
貯留層解析における急速な技術進歩は、炭化水素組成の記述精度とフィールドの有効性を向上させています。技術の進歩は、リアルタイムのモニタリングオプションと有用なデータを提供し、生産者がより迅速、簡単、かつ効果的に意思決定できるようにします。しかし、圧力過渡解析(PTA)と速度過渡解析(RTA)は、データを効果的に活用し、オンタイム生産管理のための意思決定をサポートします。例えば、数値シミュレーションモデルへのデータ同化という従来のアプローチは、時代遅れの手法です。したがって、貯留層解析市場の需要は、今後数年間は、精度を向上させるための大幅な技術改善と採用の増加によって牽引されることになります。自己組織化マップ(SOM)は、最新のコンピューティング技術、可視化アプローチ、地震データに関する機械学習の知識を活用することで、多数の地震学的特徴を効果的に分類し、確率ボリュームに還元します。SOMは強力な非線形クラスター解析とパターン識別の機械学習アプローチであり、多属性の地震サンプルベースで使用された場合、内在する地質特性やデータの他の部分に接続することができるデータ内のパターンを識別する際にインタープリターを支援します。SOM解析が適切に使用されれば、適切な地質学的コンテクストにおける薄層とDHIの両方を明らかにすることができます。
探鉱作業の生産性と精度を高めるために、貯留層解析が頻繁に行われています。非従来型埋蔵量の探鉱中に貯留層解析ツールを活用することは、ライフサイクル全体を通じて石油・ガス田のパフォーマンスを向上させることに貢献します。例えば、Australian Energy Statistics 2017報告書によると、オーストラリアは2017年に255.1億立方メートルの炭層メタンを生産し、成長率は124.1%でした。その結果、予想される期間中、市場の需要は非従来型資源の探索動向の拡大によって牽引されることになります。
本レポートでは、世界の貯留層解析を、以下に詳述した業界動向に加えて、以下のカテゴリーに分類しています:
当社について&免責事項
Global reservoir analysis market is anticipated to grow at a steady pace in the forecast period, 2024-2028 due to the increased demand for energy on a global scale. Additionally, a growing concentration on established oil and gas fields and explosive growth in new industries are driving the market growth in various geographical areas.
Venezuela has the largest oil reserves of any country in the world, with more than 300 billion barrels of proven reserves, which is a 17.5% share of the entire global resource, and in 2011, the country surpassed Saudi Arabia to top worldwide list.
An accumulation of oil and gas in a rock formation is known as an oil and gas reservoir. Small, interconnected rock pore spaces that collected the oil and gas are sealed off by the reservoir's impermeable layers of rock above and below. As there are no enormous open cavities that contain oil, typical reservoirs are not underground "pools" or "lakes" of oil. The term "hydrocarbon reservoirs" can also be used to describe oil and gas reserves. The source rock, the reservoir rock, and the cap rock are the three basic components of conventional hydrocarbon reservoirs. The rock that holds the kerogen from which the oil and gas are formed is known as the source rock. The porous, permeable rock layer or layers that retain the oil and gas are known as reservoir rocks. While water frequently seals the bottom, the cap rock seals the top and sides, trapping the hydrocarbons in the reservoir.
Market Overview | |
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Forecast Period | 2024-2028 |
Market Size 2022 | USD 5.1 Billion |
Market Size 2028 | USD 7.99 Billion |
CAGR 2023-2028 | 6.9% |
Fastest Growing Segment | Onshore |
Largest Market | North America |
Producers may now use cutting-edge technologies for reservoir fluids and formation to optimize production and recovery methods thanks to significant advancements in drilling and exploration technology. Some of the cutting-edge tools and equipment utilized in production include precision pumps, formation response testers, mechanical integrity testers, and dynalink telemetry systems. It offers field performance, volumetric computation, and probabilistic models to increase information accessibility and reliability while also achieving improved reliability and accuracy. The process of gathering, processing, and combining a variety of fundamental data, such as well logs, core analysis, and fluid properties, to produce geophysical, geological, and engineering data with greater accuracy results in an accurate assessment of the reservoir. Therefore, technological advancement is having a great impact on production and exploration activities.
The main drivers of this market's expansion are an increase in electricity consumption and the growing necessity for hydrocarbon recovery. For instance, the primary energy consumption per capita in North America increased by 1.9% from 235.3 Gigajoules per capita (G.J./Capita) in 2017 to 239.8 GJ/Capita in 2018, according to the B.P. statistical analysis of the world energy report 2019. Additionally, in 2018, the amount of oil produced in North America rose from 20.16 million barrels per day (BPD) to 22.59 million BPD. Therefore, as oil and gas production and exploration activities increase, so does the demand for energy and hydrogen recovery, which necessitates the extensive extraction of fossil fuel. As a result, the oil and gas industry's expanding exploration and production activities raise demand for energy and hydrogen recovery, which in turn spurs the market for reservoir analysis.
The Unconventional Segment Might Aid Market Growth.
The viability of unconventional reservoirs as a hydrocarbon system is considered when evaluating them. The assessments that follow are completed to provide a quantitative assessment of this. Contrarily, unconventional reservoirs are regionally distributed across a vast area and lack a predictively useful suggestive trap geometry. Unconventional reservoirs typically include low density oil and gas that is frequently held in the rock by powerful capillary forces and unable to flow naturally through buoyancy. Therefore, relatively expensive well testing for delivery typically serves to define the boundaries of an unconventional field. By adopting methods like fracturing or steam injection, it is possible to extract resources from unconventional reservoirs by altering the physical characteristics of the reservoir or the fluid's flow characteristics.
The oil and gas industry is anticipated to grow even more as a result of the shale gas boom, which is anticipated to boost the market for reservoir analysis.
The main type of oil produced in 2021, light-tight oil (LTO), contributed over 7.23 million barrels per day of global output. The sector is anticipated to benefit from a rise in oil output.
With 21.8 trillion cubic feet, China is predicted to have the largest technically recoverable shale gas resource in 2021. The largest reserves of tight gas are projected to be in Asia-Pacific and Latin America, totaling 2,684 trillion cubic feet by 2021. There are 1,660 trillion cubic feet worth of coalbed methane (CBM) reserves, with more than 75% of those located in Europe and Asia-Pacific. Consequently, the global reservoir analysis market is anticipated to grow significantly during the forecast period due to the rise in demand for oil and gas.
Rapid technological advancement in reservoir analysis is improving the accuracy of hydrocarbon composition descriptions and field effectiveness. Technology advancements offer real-time monitoring options and useful data, enabling the producer to make decisions more quickly, simply, and effectively. However, pressure transient analysis (PTA) and rate transient analysis (RTA) effectively utilizes the data and supports decision-making for on-time production management. For instance, the traditional approaches of data assimilation into numerical simulation models are outdated techniques. The demand for the reservoir analysis market will therefore be driven in the next years by major technological improvements and increased adoption to attain improved accuracy. Self-organizing Maps (SOMs) effectively reduce numerous seismic features into categorization and probability volumes by utilizing modern computing technology, visualization approaches, and a knowledge of machine learning on seismic data. SOM is a potent nonlinear cluster analysis and pattern identification machine learning approach that, when used on a multi-attribute seismic sample basis, aids interpreters in identifying patterns in their data that can connect to intrinsic geology properties and other parts of their data. When appropriately used, SOM analysis can reveal both, thin beds and DHIs in suitable geologic contexts.
To increase productivity and accuracy in exploration efforts, reservoir analysis is frequently done. Utilizing a reservoir analysis tool during the exploration of unconventional reserves contributes to better oil and gas field performance over the course of their entire life cycle. For instance, Australia produced 25.51 billion cubic metres of coal bed methane in 2017, with a growth rate of 124.1%, according to the Australian Energy Statistics 2017 report. As a result, during the anticipated period, demand for the market will be driven by the expanding trend of exploring unconventional resources.
The global reservoir analysis market is segmented based on reservoir type, service, application, and region. Based on reservoir type, the market can be segmented into conventional and unconventional. Based on service, the market is segmented into geo modeling, reservoir simulation, data acquisition & monitoring, reservoir sampling, and others. Based on application, the market is segmented into onshore and offshore. Based on region, the market is segmented into North America, Asia-Pacific, Europe, South America, and the Middle East & Africa.
Major market players in the Global Reservoir Analysis are Schlumberger Limited, Halliburton Company, Baker Hughes Incorporated, Weatherford International, PLC, CGG SA, Core Laboratories, Tracerco, Geokinetics, Inc., Core Laboratories, Paradigm & Expro Group
In this report, the global reservoir analysis has been segmented into following categories, in addition to the industry trends which have also been detailed below:
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