石油増進回収用ナノ粒子市場の評価：タイプ・注入法・地域別の機会および予測 (2018-2032年)

世界の石油増進回収用ナノ粒子の市場規模は、予測期間中にCAGR 6.61%で推移し、2024年の66億6,160万米ドルから、2032年には112億5,170万米ドルに成長すると予測されています。

一次および二次回収法では、原位置原油量 (OIIP) のそれぞれ約30%および60%の回収が可能とされています。これに対して、三次回収法 (EOR：Enhanced Oil Recovery/増進回収法) は、特に非在来型の石油・ガス資源において最大75%のOIIPを回収可能であるため、その重要性が高まっています。EOR用ナノ粒子の市場が力強く成長している主な要因は、成熟油田や生産量が低下している油田からの回収率を最大化したいというニーズの高まりです。これらの油田では、従来の回収技術では原油を十分に回収できないことが多いため、ナノ粒子が注目されています。ナノ粒子は、従来のEOR剤と比べて、より効率的で、環境にやさしく、コスト面でも有利なことが多いという利点があります。さらに、界面張力の調整、浸潤性の改善、エマルションの安定化といった機能を備えており、複雑な地層における回収率の向上に非常に適しているため、市場での需要を大きく押し上げています。また、技術革新、世界的なエネルギー需要の増加、石油・ガス業界における持続可能性への関心の高まりも、ナノ粒子ベースのEOR技術の導入を一層促進しています。業界全体が効率性向上とカーボンフットプリントの削減を重視する流れの中で、EOR用ナノ粒子市場は、今後の予測期間において高い成長軌道を描くと見込まれています。

企業は、成熟油田からの生産量を増加させるための革新的な技術の導入を模索しており、新たな生産手法の導入が、EOR (増進回収法) 用ナノ粒子の市場需要を後押ししています。

たとえば、2025年4月にDel Mar Energy Inc.は、環境負荷を抑えつつ、原油の採取率を大幅に向上させる「熱刺激型ナノ化学回収法 (TSNCR：Thermal-Stimulated Nano-Chemical Recovery) 」の導入を検討しています。TSNCRは、制御された熱とエンジニアリングされたナノ粒子を用いて、到達が困難な岩石層から原油の流動を穏やかに刺激する手法であり、地層構造を損なうことなく、かつ水使用量を最小限に抑えながら、坑井からの回収効率を高めることが可能です。

当レポートでは、世界の石油増進回収用ナノ粒子の市場を調査し、市場の定義と概要、市場規模の推移・予測、各種区分別の詳細分析、産業構造、市場成長への影響因子の分析、競合情勢、主要企業のプロファイルなどをまとめています。

目次

第1章 プロジェクトの範囲と定義

第2章 調査手法

第3章 COVID-19が世界の石油増進回収用ナノ粒子市場に与える影響

第4章 ロシア・ウクライナ戦争の影響

第5章 エグゼクティブサマリー

第6章 顧客の声

• 回答者の人口統計
• 購入決定時に考慮される要素
• 望ましい改善

第7章 世界の石油増進回収用ナノ粒子市場の展望

• 市場規模の分析・予測
• 市場シェアの分析・予測
  • タイプ別
    • 有機ナノ粒子
    • 無機ナノ粒子
    • その他
  • 注射別
    • 金属酸化物ナノ粒子浸水
    • シリカベースナノ粒子浸水
    • 機能化ナノ粒子浸水
    • その他
  • 地域別
    • 北米
    • 欧州
    • アジア太平洋
    • 南米
    • 中東・アフリカ
  • 企業別市場シェア分析 (上位5社およびその他)
• 市場マップ分析

第8章 北米の石油増進回収用ナノ粒子市場の展望

• 市場規模の分析・予測
• 市場シェアの分析・予測
• 国別市場評価
  • 米国
  • カナダ
  • メキシコ

第9章 中東・アフリカの石油増進回収用ナノ粒子市場の展望

• サウジアラビア
• UAE
• クウェート
• オマーン
• ナイジェリア

第10章 欧州の石油増進回収用ナノ粒子市場の展望

• ロシア
• ノルウェー
• カザフスタン
• 英国
• イタリア
• トルコ
• ドイツ
• ポーランド
• フランス

第11章 アジア太平洋の石油増進回収用ナノ粒子市場の展望

• 中国
• インド
• インドネシア
• マレーシア
• オーストラリア
• タイ
• ベトナム
• 日本

第12章 南米の石油増進回収用ナノ粒子市場の展望

• ブラジル
• アルゼンチン

第13章 供給サイド分析

• 生産能力と生産量：酸化亜鉛
• 生産能力と生産量：シリコン酸化物
• 生産能力と生産量：酸化鉄

第14章 需要サイドの分析

第15章 輸出入の分析

第16章 バリューチェーン分析

第17章 PESTEL分析

第18章 ポーターのファイブフォース分析

第19章 市場力学

• 市場促進要因
• 市場の課題

第20章 市場動向と発展

第21章 価格分析

第22章 ケーススタディ

第23章 競合情勢

• 上位5社の競合マトリックス
• 上位5社のSWOT分析
• 上位10社の情勢
  • Saudi Arabian Oil Co.
  • Chevron Corporation
  • China National Petroleum Corporation
  • Exxon Mobil Corporation
  • TotalEnergies SE
  • Shell PLC
  • BP P.L.C
  • Halliburton Energy Services, Inc
  • Baker Huges Company
  • Schlumberger Limited

第24章 戦略的提言

第25章 当社について・免責事項

List of Tables

• Table 1: Capacity and Production Zinc Oxide, By Company, Volume (Thousand Tons), 2020-2024
• Table 2: Capacity and Production Silicon Oxide, By Company, Volume (Thousand Tons), 2020-2024
• Table 3: Capacity and Production Ferric Oxide, By Company, Volume (Tho

List of Figures

• Figure 1: Global Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 2: Global Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 3: Global Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 4: Global Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 5: Global Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 6: Global Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 7: Global Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 8: Global Enhanced Oil Recovery Nanoparticles Market Share, By Region, By Value, 2018-2032F
• Figure 9: Global Enhanced Oil Recovery Nanoparticles Market Share, By Company, By Value, 2024
• Figure 10: Global Enhanced Oil Recovery Nanoparticles Market Map, By Type, By Value, 2024
• Figure 11: Global Enhanced Oil Recovery Nanoparticles Market Map, By Type, By Organic Nanoparticles, By Value, 2024
• Figure 12: Global Enhanced Oil Recovery Nanoparticles Market Map, By Type, By Inorganic Nanoparticles, By Value, 2024
• Figure 13: Global Enhanced Oil Recovery Nanoparticles Market Map, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2024
• Figure 14: Global Enhanced Oil Recovery Nanoparticles Market Map, By Injection, By Value, 2024
• Figure 15: Global Enhanced Oil Recovery Nanoparticles Market Map, By Region, By Value, 2024
• Figure 16: North America Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 17: North America Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 18: North America Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 19: North America Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 20: North America Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 21: North America Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 22: North America Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 23: North America Enhanced Oil Recovery Nanoparticles Market Share, By Country, By Value, 2018-2032F
• Figure 24: United States Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 25: United States Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 26: United States Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 27: United States Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 28: United States Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 29: United States Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 30: United States Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 31: Canada Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 32: Canada Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 33: Canada Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 34: Canada Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 35: Canada Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 36: Canada Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 37: Canada Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 38: Mexico Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 39: Mexico Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 40: Mexico Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 41: Mexico Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 42: Mexico Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 43: Mexico Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 44: Mexico Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 45: Middle East and Africa Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 46: Middle East and Africa Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 47: Middle East and Africa Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 48: Middle East and Africa Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 49: Middle East and Africa Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 50: Middle East and Africa Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 51: Middle East and Africa Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 52: Middle East and Africa Enhanced Oil Recovery Nanoparticles Market Share, By Country, By Value, 2018-2032F
• Figure 53: Saudi Arabia Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 54: Saudi Arabia Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 55: Saudi Arabia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 56: Saudi Arabia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 57: Saudi Arabia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 58: Saudi Arabia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 59: Saudi Arabia Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 60: United Arab Emirates Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 61: United Arab Emirates Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 62: United Arab Emirates Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 63: United Arab Emirates Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 64: United Arab Emirates Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 65: United Arab Emirates Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 66: United Arab Emirates Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 67: Kuwait Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 68: Kuwait Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 69: Kuwait Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 70: Kuwait Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 71: Kuwait Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 72: Kuwait Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 73: Kuwait Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 74: Oman Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 75: Oman Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 76: Oman Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 77: Oman Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 78: Oman Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 79: Oman Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 80: Oman Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 81: Nigeria Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 82: Nigeria Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 83: Nigeria Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 84: Nigeria Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 85: Nigeria Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 86: Nigeria Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 87: Nigeria Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 88: Europe Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 89: Europe Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 90: Europe Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 91: Europe Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 92: Europe Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 93: Europe Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 94: Europe Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 95: Europe Enhanced Oil Recovery Nanoparticles Market Share, By Country, By Value, 2018-2032F
• Figure 96: Russia Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 97: Russia Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 98: Russia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 99: Russia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 100: Russia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 101: Russia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 102: Russia Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 103: Norway Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 104: Norway Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 105: Norway Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 106: Norway Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 107: Norway Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 108: Norway Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 109: Norway Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 110: Kazakhstan Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 111: Kazakhstan Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 112: Kazakhstan Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 113: Kazakhstan Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 114: Kazakhstan Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 115: Kazakhstan Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 116: Kazakhstan Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 117: United Kingdom Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 118: United Kingdom Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 119: United Kingdom Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 120: United Kingdom Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 121: United Kingdom Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 122: United Kingdom Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 123: United Kingdom Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 124: Italy Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 125: Italy Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 126: Italy Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 127: Italy Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 128: Italy Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 129: Italy Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 130: Italy Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 131: Turkey Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 132: Turkey Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 133: Turkey Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 134: Turkey Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 135: Turkey Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 136: Turkey Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 137: Turkey Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 138: Germany Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 139: Germany Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 140: Germany Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 141: Germany Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 142: Germany Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 143: Germany Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 144: Germany Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 145: Poland Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 146: Poland Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 147: Poland Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 148: Poland Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 149: Poland Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 150: Poland Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 151: Poland Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 152: France Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 153: France Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 154: France Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 155: France Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 156: France Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 157: France Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 158: France Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 159: Asia-Pacific Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 160: Asia-Pacific Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 161: Asia-Pacific Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 162: Asia-Pacific Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 163: Asia-Pacific Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 164: Asia-Pacific Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 165: Asia-Pacific Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 166: Asia-Pacific Enhanced Oil Recovery Nanoparticles Market Share, By Country, By Value, 2018-2032F
• Figure 167: China Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 168: China Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 169: China Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 170: China Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 171: China Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 172: China Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 173: China Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 174: India Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 175: India Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 176: India Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 177: India Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 178: India Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 179: India Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 180: India Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 181: Indonesia Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 182: Indonesia Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 183: Indonesia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 184: Indonesia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 185: Indonesia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 186: Indonesia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 187: Indonesia Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 188: Malaysia Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 189: Malaysia Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 190: Malaysia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 191: Malaysia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 192: Malaysia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 193: Malaysia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 194: Malaysia Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 195: Australia Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 196: Australia Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 197: Australia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 198: Australia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 199: Australia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 200: Australia Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 201: Australia Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 202: Thailand Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 203: Thailand Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 204: Thailand Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 205: Thailand Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 206: Thailand Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 207: Thailand Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 208: Thailand Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 209: Vietnam Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 210: Vietnam Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 211: Vietnam Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 212: Vietnam Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 213: Vietnam Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 214: Vietnam Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 215: Vietnam Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 216: Japan Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 217: Japan Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 218: Japan Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 219: Japan Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 220: Japan Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 221: Japan Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 222: Japan Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 223: South America Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 224: South America Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 225: South America Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 226: South America Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 227: South America Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 228: South America Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 229: South America Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 230: South America Enhanced Oil Recovery Nanoparticles Market Share, By Country, By Value, 2018-2032F
• Figure 231: Brazil Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 232: Brazil Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 233: Brazil Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 234: Brazil Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 235: Brazil Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 236: Brazil Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 237: Brazil Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 238: Argentina Enhanced Oil Recovery Nanoparticles Market Size, By Value (USD Million), 2018-2032F
• Figure 239: Argentina Enhanced Oil Recovery Nanoparticles Market Size, By Volume (Thousand Tons), 2018-2032F
• Figure 240: Argentina Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Value, 2018-2032F
• Figure 241: Argentina Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Organic Nanoparticles, By Value, 2018-2032F
• Figure 242: Argentina Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Value, 2018-2032F
• Figure 243: Argentina Enhanced Oil Recovery Nanoparticles Market Share, By Type, By Inorganic Nanoparticles, By Metal, By Value, 2018-2032F
• Figure 244: Argentina Enhanced Oil Recovery Nanoparticles Market Share, By Injection, By Value, 2018-2032F
• Figure 245: World Crude Oil and Liquid Fuels Production, 2022-2026F

Global enhanced oil recovery nanoparticle market is projected to witness a CAGR of 6.61% during the forecast period 2025-2032, growing from USD 6,661.6 million in 2024 to USD 11,251.7 million in 2032. 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. The robust growth of EOR nanoparticles is primarily driven by the increasing need to maximize oil recovery from mature and declining fields, where conventional recovery techniques often fail to extract the original oil in place. Nanoparticles present a more efficient, environmentally friendly, and frequently cost-effective solution compared to traditional EOR agents. The ability to modify interfacial tension, improve wettability, and stabilize emulsions makes them highly suitable for improving recovery rates in complex reservoirs thus drive its demand in the market. Moreover, technological advancements, rising global energy demand, and the oil & gas sector's growing emphasis on sustainability are further propelling the adoption of nanoparticle-based EOR techniques. With the industry increasingly focusing on efficiency and smaller carbon footprints, the EOR nanoparticles market will be on a high-growth trajectory during the forecast period.

Companies are looking for innovative techniques to increase production from mature oil reserves and are looking to introduce new methods in the production process, thereby driving the demand for EOR nanoparticles in the market.

For instance, in April 2025, Del Mar Energy Inc. are looking to use the Thermal-Stimulated Nano-Chemical Recovery (TSNCR) method in oil extraction which would significantly increase oil extraction rates while reducing environmental impact. TSNCR uses controlled heat and engineered nanoparticles to gently stimulate oil flow from hard-to-reach rock formations. Furthermore, the process avoids damaging the geological structure and minimizes water consumption and increases the oil recovery from the well.

Furthermore, 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 the viscosity of injected water.

Rising Adoption of EOR Nanoparticles for Efficient Carbon Mobility to Foster Market Growth

High mobility of carbon dioxide occurs in ultra-low permeability reservoirs which causes severe gas channeling during carbon dioxide flooding. Mobility control has become an important parameter to enhance oil recovery, in which conventional processes 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.

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 for enhancing 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, thus driving its demand in the market. Moreover, companies are adopting clean energy strategies for the extraction of oil from the well, which will lower the emission of gases in the environment, thus helping to achieve the net-zero objective.

For instance, in September 2024, PetroChina advanced its clean energy strategy by acquiring CNPC Electric Energy from its parent company by investing around USD 839 million. This development highlights that companies are adopting innovative technologies, which will drive the demand for the EOR nanoparticle market size in the coming years.

Rise in Demand from Growing Mature Oil Fields Boosting the Demand of Nanoparticles

The Enhanced Oil Recovery (EOR) nanoparticles market is witnessing robust growth, fueled by factors such as the industry's focus on optimizing production from aging and complex reservoirs, as well as increased oil extraction activities. Nanoparticle-based EOR solutions are revolutionizing extraction processes by enhancing reservoir performance through targeted modifications to interfacial tension, wettability, and fluid mobility.

Enhanced oil recovery (EOR) nanoparticle technologies are particularly transformative for unconventional reserves, including heavy oil and shale formations, where traditional methods fall short. For instance, silica nanoparticles demonstrate exceptional efficacy in reducing interfacial tension between oil and water, enabling superior microscopic displacement and recovery rates.

For instance, the International Energy Agency (IEA) projects global oil demand to rise from 840 kb/d (thousand barrels per day) in 2024 to 1.1 mb/d (million barrels per day) in 2025, reaching a total consumption of 103.9 mb/d, which highlights the rising demand for oil in the coming year. The escalating demand for oil in the global market underscores the critical role of nanoparticle-assisted EOR in meeting energy needs sustainably.

Further Companies like Saudi Aramco, operating in mature fields like Ghawar, which is one of the major oil fields globally, has integrated nanoparticle-based EOR to combat declining production. By deploying silica nanoparticles, the company improved sweep efficiency and recovered an additional 10-15% of residual oil in pilot tests. As research continues, the EOR nanoparticles market is poised for exponential growth, driven by the oil and gas sector's demand for sustainable and high-yield extraction solutions.

Technological Advancements in Nanoparticles Creating Market Opportunities

The Enhanced Oil Recovery (EOR) nanoparticles market is being propelled by rapid technological advancements in nanoparticle design, functionalization, and application strategies. These innovations address critical challenges in oil extraction, such as interfacial tension reduction, wettability alteration, and thermal stability, while improving recovery rates in complex reservoirs. The technological advancement in metal oxide nanoparticles, such as titanium dioxide (TiO2) and zinc oxide (ZnO) enhance thermal stability during steam flooding further creating its demand in the market.

For instance, Chevron's Duri Field, one of the world's largest steamflood projects, struggled with steam override (steam rising to the top of the reservoir) and low sweep efficiency in mature zones. To address the challenge, company decided to introduce TiO2 nanoparticle-enhanced steam in 2018 to improve vertical conformance and helped to increase their oil production and reduce the steam injection volume, helping in lowering the C02 emissions. Hence, projects like CNRL's Primrose East and Chevron's Duri Field underscore their transformative potential, positioning TiO2 and ZnO as cornerstones of next-generation thermal EOR technologies.

Furthermore, polymer-coated nanoparticles are adapted for specific applications, such as improving mobility control, reducing interfacial tension (IFT), increasing displacing agent viscosity, altering surface wettability, and stabilizing foams and emulsions. The polymer coating enhances nanoparticle dispersion and stability in the oil phase, increasing their effectiveness in EOR processes. Hence, polymer-coated silica nanoparticles improved the efficiency of water flooding, achieving 60-72 % original oil in place (OOIP) in secondary recovery, compared to 56 % OOIP with standard water flooding. These innovations enhance recovery efficiency, reduce environmental impact, and lower operational costs, making them indispensable for tackling unconventional reservoirs and declining oilfields.

Inorganic Nanoparticles Showcased Lucrative Position in Market

The inorganic nanoparticles are highly in demand due to their strong thermal and chemical stability, making them effective under harsh reservoir conditions. The inorganic nanoparticles enhance oil recovery by altering rock wettability from oil-wet to water-wet and significantly reducing interfacial tension, which facilitates the mobilization of trapped oil. In several applications, the inorganic nanoparticles are used with surface-functionalized or polymers to improve their dispersion and compatibility within the reservoir. The integration of inorganic nanoparticles into nano-surfactant systems has shown promising results, especially in high-temperature and high-salinity environments where traditional EOR methods underperform thus driving its demand in the market. Their continued dominance highlights their critical role in modern EOR strategies, especially as the industry seeks more efficient and resilient recovery technologies.

North America Dominate the Global EOR Nanoparticle Market

The North America region remains a global leader in EOR nanotechnology adoption due to the presence of vast mature reserves wells and unconventional oil fields. Several oil companies in the region are looking to integrate the advanced extraction technologies to increase the oil production of the region, thus driving the demand for the EOR nanoparticles in the region. North America is adopting the technology as it leverages engineered nanoparticles to improve oil recovery efficiency in complex reservoirs. In particular, silica and metal oxide nanoparticles are utilized in formations like the Permian Basin to alter reservoir wettability, reduce interfacial tension, and enhance fluid mobility in tight shale exploration. Additionally, the region's strong R&D ecosystem and early field implementation strategies are accelerating the commercialization of tailored nanofluids across varied EOR applications makes the region dominate the market in the forecast period.

For instance, in June 2024, United States Energy Development Corporation decided to expand its operations in the prolific Permian basin which includes several matured reservoirs. The company decided to invest around USD 750 million to increase the production from the area. This development highlights the rising investment in oil production activities which will drive the demand for EOR nanoparticles technique in the market.

Impact of COVID-19

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.

Impact of Russia-Ukraine War

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. Moreover, the war between the nations has triggered volatility in crude oil prices to jump from USD 76 a barrel in January 2022 to above USD 110 a barrel in March 2022. 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 the 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.

Future Market Scenario (2025 - 2032F)

Massive investments in oil extraction projects across the regions are driving the demand for enhanced oil recovery nanoparticles in the coming years.

Companies are focusing on existing matured oil wells which is fostering the demand for Enhanced Oil Recovery Nanoparticles in the forecast period.

Several countries are aligning with global net-zero goals, as nano-EOR cuts emissions by up to 30% versus conventional techniques thus, driving its demand in the market

Increased R&D funding from government, national oil companies (NOCs) and private players to enhance recovery rates, further driving the market size.

Key Players Landscape and Outlook

The global enhanced oil recovery nanoparticles sector thrives on relentless innovation, with companies vying for leadership through superior technological efficiency, extended product lifecycles, and differentiated capabilities. Industry players are prioritizing three critical success factors: robust supply chain management, enhanced energy efficiency, and sustainable environmental practices-elements that will shape the market's trajectory. This dynamic competitive landscape is further intensified by strategic acquisitions, partnerships, geographic expansions, and technological co-development initiatives, setting the stage for accelerated market evolution.

For instance, in May 2024, Exxon Mobil Corporation completed the acquisition of Pioneer Natural Resources, expanding its footprint in the Permian Basin with 1.4 million net acres and an estimated 16 billion barrels of oil equivalent. The merger more than doubled Exxon Mobil Corporation's Permian production.

Table of Contents

1. Project Scope and Definitions

2. Research Methodology

3. Impact of COVID-19 on the Global Enhanced Oil Recovery Nanoparticles Market

4. Impact of Russia-Ukraine War

5. Executive Summary

6. Voice of Customer

• 6.1. Respondent Demographics
• 6.2. Factors Considered in Purchase Decision
• 6.3. Desired Improvement

7. Global Enhanced Oil Recovery Nanoparticle Market Outlook, 2018-2032F

• 7.1. Market Size Analysis & Forecast
  • 7.1.1. By Value
  • 7.1.2. By Volume
• 7.2. Market Share Analysis & Forecast
  • 7.2.1. By Type
    • 7.2.1.1. Organic Nanoparticle
      • 7.2.1.1.1. Carbon-Based
      • 7.2.1.1.2. Lipid & Polymeric Based
      • 7.2.1.1.3. Others
    • 7.2.1.2. Inorganic Nanoparticle
      • 7.2.1.2.1. Metal
        • 7.2.1.2.1.1. Silicon Oxide
        • 7.2.1.2.1.2. Aluminium Oxide
        • 7.2.1.2.1.3. Ferric Oxide
        • 7.2.1.2.1.4. Others
      • 7.2.1.2.2. Silica
      • 7.2.1.2.3. Ceramic
      • 7.2.1.2.4. Others
    • 7.2.1.3. Others
  • 7.2.2. By Injection
    • 7.2.2.1. Metal Oxide Nanoparticle Flooding
    • 7.2.2.2. Silica Based Nanoparticle Flooding
    • 7.2.2.3. Functionalized Nanoparticle Flooding
    • 7.2.2.4. Others
  • 7.2.3. By Region
    • 7.2.3.1. North America
    • 7.2.3.2. Europe
    • 7.2.3.3. Asia-Pacific
    • 7.2.3.4. South America
    • 7.2.3.5. Middle East and Africa
  • 7.2.4. By Company Market Share Analysis (Top 5 Companies and Others - By Value, 2024)
• 7.3. Market Map Analysis, 2024
  • 7.3.1. By Type
  • 7.3.2. By Organic Nanoparticles
  • 7.3.3. By Inorganic Nanoparticles
  • 7.3.4. By Metal
  • 7.3.5. By Injection
  • 7.3.6. By Region

8. North America Enhanced Oil Recovery Nanoparticle Market Outlook, 2018-2032F*

• 8.1. Market Size Analysis & Forecast
  • 8.1.1. By Value
  • 8.1.2. By Volume
• 8.2. Market Share Analysis & Forecast
  • 8.2.1. By Type
    • 8.2.1.1. Organic Nanoparticle
      • 8.2.1.1.1. Carbon-Based
      • 8.2.1.1.2. Lipid & Polymeric Based
      • 8.2.1.1.3. Others
    • 8.2.1.2. Inorganic Nanoparticle
      • 8.2.1.2.1. Metal
        • 8.2.1.2.1.1. Silicon Oxide
        • 8.2.1.2.1.2. Aluminium Oxide
        • 8.2.1.2.1.3. Ferric Oxide
        • 8.2.1.2.1.4. Others
      • 8.2.1.2.2. Silica
      • 8.2.1.2.3. Ceramic
      • 8.2.1.2.4. Others
    • 8.2.1.3. Others
  • 8.2.2. By Injection
    • 8.2.2.1. Metal Oxide Nanoparticle Flooding
    • 8.2.2.2. Silica Based Nanoparticle Flooding
    • 8.2.2.3. Functionalized Nanoparticle Flooding
    • 8.2.2.4. Others
  • 8.2.3. By Country Share
    • 8.2.3.1. United States
    • 8.2.3.2. Canada
    • 8.2.3.3. Mexico
• 8.3. Country Market Assessment
  • 8.3.1. United States Enhanced Oil Recovery Nanoparticle Market Outlook, 2018-2032F*
    • 8.3.1.1. Market Size Analysis & Forecast
      • 8.3.1.1.1. By Value
      • 8.3.1.1.2. By Volume
    • 8.3.1.2. Market Share Analysis & Forecast
      • 8.3.1.2.1. By Type
        • 8.3.1.2.1.1. Organic Nanoparticle
        • 8.3.1.2.1.1.1. Carbon-Based
        • 8.3.1.2.1.1.2. Lipid & Polymeric Based
        • 8.3.1.2.1.1.3. Others
        • 8.3.1.2.1.2. Inorganic Nanoparticle
        • 8.3.1.2.1.2.1. Metal
        • 8.3.1.2.1.2.1.1. Silicon Oxide
        • 8.3.1.2.1.2.1.2. Aluminium Oxide
        • 8.3.1.2.1.2.1.3. Ferric Oxide
        • 8.3.1.2.1.2.1.4. Others
        • 8.3.1.2.1.2.2. Silica
        • 8.3.1.2.1.2.3. Ceramic
        • 8.3.1.2.1.2.4. Others
        • 8.3.1.2.1.3. Others
      • 8.3.1.2.2. By Injection
        • 8.3.1.2.2.1. Metal Oxide Nanoparticle Flooding
        • 8.3.1.2.2.2. Silica Based Nanoparticle Flooding
        • 8.3.1.2.2.3. Functionalized Nanoparticle Flooding
        • 8.3.1.2.2.4. Others
  • 8.3.2. Canada
  • 8.3.3. Mexico

All segments will be provided for all regions and countries covered

9. Middle East and Africa Enhanced Oil Recovery Nanoparticle Market Outlook, 2018-2032F

• 9.1. Saudi Arabia
• 9.2. United Arab Emirates
• 9.3. Kuwait
• 9.4. Oman
• 9.5. Nigeria

10. Europe Enhanced Oil Recovery Nanoparticle Market Outlook, 2018-2032F

• 10.1. Russia
• 10.2. Norway
• 10.3. Kazakhstan
• 10.4. United Kingdom
• 10.5. Italy
• 10.6. Turkey
• 10.7. Germany
• 10.8. Poland
• 10.9. France

11. Asia-Pacific Enhanced Oil Recovery Nanoparticle Market Outlook, 2018-2032F

• 11.1. China
• 11.2. India
• 11.3. Indonesia
• 11.4. Malaysia
• 11.5. Australia
• 11.6. Thailand
• 11.7. Vietnam
• 11.8. Japan

12. South America Enhanced Oil Recovery Nanoparticle Market Outlook, 2018-2032F

• 12.1. Brazil
• 12.2. Argentina

13. Supply Side Analysis

• 13.1. Capacity and Production, By Zinc Oxide
• 13.2. Capacity and Production, By Silicon Oxide
• 13.3. Capacity and Production, By Ferric Oxide

14. Demand Side Analysis

15. Import and Export Analysis

16. Value Chain Analysis

17. PESTEL Analysis

18. Porter's Five Forces Analysis

19. Market Dynamics

• 19.1. Market Drivers
• 19.2. Market Challenges

20. Market Trends and Developments

21. Pricing Analysis

22. Case Studies

23. Competitive Landscape

• 23.1. Competition Matrix of Top 5 Market Leaders
• 23.2. SWOT Analysis for Top 5 Players
• 23.3. Key Players Landscape for Top 10 Market Players
  • 23.3.1. Saudi Arabian Oil Co.
    • 23.3.1.1. Company Details
    • 23.3.1.2. Key Management Personnel
    • 23.3.1.3. Products and Services
    • 23.3.1.4. Financials (As Reported)
    • 23.3.1.5. Key Market Focus and Geographical Presence
    • 23.3.1.6. Recent Developments/Collaborations/Partnerships/Mergers and Acquisition
  • 23.3.2. Chevron Corporation
  • 23.3.3. China National Petroleum Corporation
  • 23.3.4. Exxon Mobil Corporation
  • 23.3.5. TotalEnergies SE
  • 23.3.6. Shell PLC
  • 23.3.7. BP P.L.C
  • 23.3.8. Halliburton Energy Services, Inc
  • 23.3.9. Baker Huges Company
  • 23.3.10. Schlumberger Limited

Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.

24. Strategic Recommendations

25. About Us and Disclaimer