1 はじめに
1.1 調査目的 25
1.2 市場の定義 25
1.3 調査範囲 26
1.3.1 対象市場と地域範囲 26
1.3.2 対象範囲と除外項目 27
1.3.3 考慮した年数 27
1.4 考慮した通貨 27
1.5 単位の検討 28
1.6 利害関係者 28
1.7 変更点のまとめ 28
2 調査方法 29
2.1 調査データ 29
2.1.1 二次データ 30
2.1.1.1 二次資料からの主要データ 30
2.1.2 一次データ 31
2.1.2.1 一次資料からの主要データ 31
2.1.2.2 一次インタビュー参加者リスト(需要側と供給側) 31
2.1.2.3 主要な業界インサイト 32
2.1.2.4 一次インタビューの内訳 32
2.2 市場規模の推定 33
2.2.1 ボトムアップアプローチ 33
2.2.2 トップダウンアプローチ 33
2.3 予測数値の算出 34
2.4 データの三角測量 35
2.5 要因分析 36
2.6 リサーチの前提 36
2.7 調査の限界とリスク評価 37
3 エグゼクティブ・サマリー 38
4 プレミアムインサイト 41
4.1 膜分離型バイオリアクター市場におけるプレーヤーの魅力的な機会 41
4.2 膜分離型バイオリアクター市場、膜タイプ別 41
4.3 膜分離型バイオリアクター市場:システム構成別 42
4.4 膜分離型バイオリアクター市場:用途別 42
4.5 膜分離型バイオリアクター市場:国別 43
5 市場の概要 44
5.1 導入 44
5.2 市場ダイナミクス 44
5.2.1 推進要因 45
5.2.1.1 効果的な廃水処理に対する需要の増加 45
5.2.1.2 環境規制・基準の厳格化 45
5.2.1.3 水不足に対する懸念の高まり 46
5.2.2 抑制要因 47
5.2.2.1 膜のファウリングによるシステム効率の低下と運転コストの増加 47
膜ファウリング 47
5.2.2.2 高い初期設備投資 47
5.2.3 機会 48
5.2.3.1 持続可能性への関心の高まり 48
5.2.3.2 MBR 技術と他の高度処理プロセスとの統合 48
5.2.4 課題 48
5.2.4.1 MBR システムに伴う技術的複雑性 48
5.2.4.2 高いエネルギー消費 49
5.3 ポーターのファイブ・フォース分析 49
5.3.1 代替品の脅威 50
5.3.2 供給業者の交渉力 51
5.3.3 新規参入企業の脅威 51
5.3.4 買い手の交渉力 51
5.3.5 競合の激しさ 51
5.4 主要ステークホルダーと購買基準 52
5.4.1 購入プロセスにおける主要ステークホルダー 52
5.4.2 購入基準 53
5.5 マクロ経済指標 54
5.5.1 世界のGDP動向 54
5.5.2 石油・ガス統計 56
6 業界動向 57
6.1 はじめに 57
6.2 バリューチェーン分析 57
6.3 規制情勢 58
6.3.1 規制 58
6.3.1.1 北米 58
6.3.1.2 欧州 59
6.3.1.3 アジア太平洋 60
6.3.2 規格 60
6.3.2.1 AWA B130-2018 60
6.3.2.2 共通排水処理設備(CETP)規格 60
6.3.3 規制機関、政府機関、その他の組織 61
6.4 貿易分析 63
6.4.1 輸入シナリオ(HSコード842121) 63
6.4.2 輸出シナリオ(HSコード842121) 64
6.5 エコシステム分析 64
6.6 顧客ビジネスに影響を与えるトレンド/混乱 66
6.7 ケーススタディ分析 66
6.7.1 ヴェオリアはアメリカン・キャニオンに Zeeweed MBR 技術を提供 66
6.7.2 クボタが日本のビール工場に浸漬型膜分離型バイオリアクターユニットを提供 67
6.7.3 ジャガイモ加工業者が廃水処理にエボ クアのadi MBRを採用 68
6.7.4 ヌーサヨーグルトはアディシステムズと地元エンジニアリング会社と提携し、アディ好気性 MBR 排水処理システムを設計 68
6.8 技術分析 69
6.8.1 主要技術 69
6.8.1.1 曝気・混合システム 69
6.8.1.2 膜ろ過技術 69
6.8.2 補足技術 69
6.8.2.1 膜ファウリング緩和技術 69
6.8.2.2 好気性粒状汚泥技術 70
6.9 主要な会議とイベント(2024~2025年) 70
6.10 特許分析 71
6.10.1 方法論 71
6.10.2 文書の種類 71
6.10.3 過去10年間の公開動向 72
6.10.4 洞察 72
6.10.5 特許の法的地位 73
6.10.6 管轄区域分析 73
6.10.7 上位出願者 74
6.11 メンブレンバイオリアクター市場におけるAI/GEN AIの影響 75
6.12 価格分析 75
6.12.1 平均販売価格動向(地域別) 75
6.12.2 主要企業の平均販売価格動向(膜タイプ別) 76
6.13 投資・資金調達シナリオ 76
7 膜分離型バイオリアクター市場、システム構成別 77
7.1 導入 78
7.2 浸漬型膜分離型バイオリアクター 79
7.2.1 最小スペース、軽量、低エネルギー消費という要件が需要を牽引 79
7.3 外部MBR 80
7.3.1 低フットプリントによる容易な設置、効果的なタグ除去機能が需要を促進 80
8 膜分離型バイオリアクター市場(膜タイプ別) 81
8.1 導入 82
8.2 中空糸 83
8.2.1 耐久性、柔軟性、容易なメンテナンスが需要を牽引 83
8.3 フラットシート 84
8.3.1 高いろ過効率とファウリング低減が需要を後押し 84
8.4 多管状 84
8.4.1 高い機械的強度と耐ファウリング性
が需要を促進 84
9 膜分離型バイオリアクター市場、用途別 85
9.1 導入 86
9.2 市廃水処理 88
9.2.1 水不足問題に対処するための使用の増加が市場を牽引 88
9.3 工業廃水処理 88
9.3.1 食品・飲料 88
9.3.1.1 飲料加工で発生する廃水を管理する用途の増加が市場成長を促進 88
9.3.2 石油・ガス 89
9.3.2.1 有害物質を除去し、処理水を再利用する能力が需要を牽引 89
9.3.3 パルプ・製紙 89
9.3.3.1 反応過程における汚泥の発生が少ないことが需要を牽引 89
9.3.4 医薬品 89
9.3.4.1 優れた消毒能力と高品質の排水が需要を促進 89
9.3.5 その他の産業廃水処理用途 90
10 膜分離型バイオリアクター市場、地域別 91
10.1 はじめに 92
10.2 北米 94
10.2.1 米国 99
10.2.1.1 MBR の様々な最終用途産業の存在と厳しい規制が需要を牽引 99
10.2.2 カナダ 101
10.2.2.1 最低排水品質基準と廃水処理プロジェクトの増加が市場を牽引 101
10.2.3 メキシコ 102
10.2.3.1 工業化の進展とMBR改修が市場を促進 102
10.3 欧州 103
10.3.1 ドイツ 109
10.3.1.1 排水処理に関する規制の厳格な実施が市場を牽引 109
10.3.2 フランス 111
10.3.2.1 飲料水と下水汚泥処理に関する厳しい規制が市場を促進 111
10.3.3 イギリス 112
10.3.3.1 欧州指令と政府主導の水・廃水処理産業への投資計画
への投資計画が市場を牽引 112
10.3.4 イタリア 113
10.3.4.1 急増する人口による清潔な水と衛生へのニーズの高まりが市場成長を促進 113
10.3.5 スペイン 115
10.3.5.1 持続可能な処理・リサイクル技術へのニーズの高まりが市場成長を促進 115
10.3.6 ロシア 116
10.3.6.1 老朽化した廃水処理インフラを近代化し、より厳しい環境基準を満たす必要性の高まりが市場成長を促進 116
10.3.7 トルコ 117
10.3.7.1 継続的な技術の進歩と環境意識の高まりが市場成長を促進 117
10.3.8 その他の欧州 118
10.4 アジア太平洋地域 119
10.4.1 中国 125
10.4.1.1 様々な最終用途産業の存在と廃水処理に関する政府の厳しい規制・政策が市場を牽引 125
10.4.2 日本 127
10.4.2.1 先端技術の開発、急速な工業化、天然資源の効率的利用が市場成長を促進 127
10.4.3 インド 128
10.4.3.1 廃水処理技術の採用増加と清潔な水を求める都市人口の増加が市場を牽引 128
10.4.4 韓国 129
10.4.4.1 商業建築の増加が市場成長を後押し 129
10.4.5 オーストラリア 131
10.4.5.1 環境意識の高まり、厳しい廃水規制、都市化の進展が市場成長を後押し 131
10.4.6 その他のアジア太平洋地域 132
10.5 中東・アフリカ 133
10.5.1 GCC諸国 138
10.5.1.1 サウジアラビア 139
10.5.1.1.1 工業用および下水用途の廃水処理への投資の増加が市場成長に寄与 139
10.5.1.2 その他のGCC諸国 140
10.5.2 エジプト 141
10.5.2.1 排水処理インフラに関連する政府政策が市場を促進 141
10.5.3 南アフリカ 142
10.5.3.1 廃水処理に関する政府の厳しい規制が市場を促進 142
が市場を牽引 142
10.5.4 その他の中東・アフリカ 144
10.6 南米 145
10.6.1 ブラジル 149
10.6.1.1 政府主導の取り組みと廃水処理プロジェクトへの投資の増加が市場成長を促進 149
10.6.2 アルゼンチン 151
10.6.2.1 都市化の進展が市場を牽引 151
10.6.3 その他の南米地域 152
11 競争環境 154
11.1 概要 154
11.2 主要プレーヤーの戦略/勝利への権利 154
11.3 収益分析 158
11.4 市場シェア分析 159
11.5 企業評価と財務指標 161
11.6 ブランド/製品比較分析 162
11.7 企業評価マトリックス:主要企業、2023年 163
11.7.1 スター企業 163
11.7.2 新興リーダー 163
11.7.3 浸透型プレーヤー 164
11.7.4 参加企業 164
11.7.5 企業フットプリント:主要プレイヤー(2023年) 165
11.7.5.1 企業フットプリント 165
11.7.5.2 膜タイプのフットプリント 166
11.7.5.3 システム構成のフットプリント 167
11.7.5.4 アプリケーションフットプリント 168
11.7.5.5 地域別フットプリント 169
11.8 企業評価マトリクス:新興企業/SM(2023年) 170
11.8.1 進歩的企業 170
11.8.2 対応力のある企業 170
11.8.3 ダイナミックな企業 170
11.8.4 スターティングブロック 170
11.8.5 競争ベンチマーキング:新興企業/SM(2023年) 172
11.8.5.1 主要新興企業/中小企業の詳細リスト 172
172 11.8.5.2 新興企業/中小企業の競合ベンチマーキング 173
11.9 競争シナリオ 174
11.9.1 製品上市 174
11.9.2 取引 175
11.9.3 拡張 177
12 企業プロファイル 178
Veolia (France)
KUBOTA Corporation (Japan)
Mitsubishi Chemical Corporation (Japan)
TORAY INDUSTRIES INC. (Japan)
Kovalus Separation Solutions (US)
Dupont (US)
Evoqua Water Technologies LLC (US)
Pentair (UK)
Mann+Hummel (Germany)
ALFA LAVAL (Sweden)
CITIC Envirotech (China)
and Aquatech (Canada).
13 付録 220
13.1 ディスカッションガイド 220
13.2 Knowledgestore: マーケットサ ンドマーケッツの購読ポータル 223
13.3 カスタマイズオプション 225
13.4 関連レポート 225
13.5 著者の詳細 226
The rapid industrialization and urbanization in countries like China, India, and various Southeast Asian nations have increased wastewater production, creating a demand for efficient treatment systems. Water scarcity issues in many areas are pushing for technologies that recycle and generate high-quality effluent. Additionally, strict government regulations on water quality are encouraging industries and municipalities to implement MBR technologies. Advancements in membrane materials have improved efficiency and reduced costs, while growing awareness of environmental sustainability further promotes MBR adoption. These factors collectively position Asia-Pacific as a crucial market for MBRs.
“Based on membrane type, hollow fiber is expected to be the second fastest growing market during the forecast period, in terms of value.”
Hollow fiber membranes are the second fastest-growing type in the membrane bioreactor market due to their numerous advantages in wastewater treatment applications. These membranes offer a high surface area-to-volume ratio, which enhances filtration efficiency and allows for compact system designs, making them ideal for space-constrained environments. Their design also facilitates effective biomass retention and provides improved permeate quality, contributing to the overall performance of MBR systems. Additionally, hollow fiber membranes exhibit lower fouling rates, which reduces maintenance needs and operational costs over time. The continuous advancements in hollow fiber membrane technology, including the development of more durable and chemically resistant materials, have further boosted their adoption. As industries increasingly seek efficient, cost-effective, and sustainable wastewater treatment solutions, the appeal of hollow fiber membranes continues to grow, positioning them as a key player in the membrane bioreactor market.
“Based on system configuration, submerged MBR system is the second fastest growing market during the forecast period, in terms of value.”
The submerged membrane bioreactor (MBR) system is the second fastest-growing segment in the MBR market due to its efficient integration of membrane filtration and biological treatment processes. This design allows the membranes to be submerged directly in the aeration tank, enhancing the retention of biomass and promoting better contact between microorganisms and wastewater. The submerged configuration significantly reduces the footprint required for treatment facilities, making it particularly suitable for urban environments with space constraints. Additionally, the submerged MBR system tends to experience lower fouling rates and reduced operational costs, as the submerged membranes are less exposed to air and do not require backwashing. With increasing demand for effective and space-saving wastewater treatment solutions, the submerged MBR system is gaining traction in various applications, from municipal wastewater treatment to industrial processes, further driving its market growth.
“Based on application, industrial wastewater treatment is the second largest market during the forecast period, in terms of value.”
Industrial wastewater treatment is the second-largest application in the membrane bioreactor (MBR) market, primarily due to the increasing volume and complexity of wastewater produced by industries such as pharmaceuticals, food and beverage, and textiles. These sectors face stringent water quality standards to meet environmental regulations, which drives the demand for advanced treatment solutions like MBRs that can effectively remove contaminants and deliver high-quality effluent. MBR technology also offers benefits such as a compact design, smaller footprint, and lower operational costs compared to traditional treatment methods, making it an appealing choice for industries aiming to improve sustainability and efficiency in wastewater management. Furthermore, the growing focus on water reuse and resource recovery enhances the adoption of MBR systems in industrial applications, reinforcing their significant market share.
“Based on region, North America is the second largest market for membrane bioreactor in 2023, in terms of value.”
North America is the second-largest market for membrane bioreactors (MBRs) due to several key factors. The region boasts a robust industrial and municipal infrastructure, with significant sectors such as pharmaceuticals, chemicals, food and beverage, and automotive manufacturing driving the demand for advanced wastewater treatment solutions. Stringent environmental regulations, particularly from the U.S. Environmental Protection Agency (EPA), mandate high standards for wastewater discharge, making MBR technology an effective option for compliance. Furthermore, growing concerns over water scarcity and the need for sustainable water management practices are leading to increased investments in MBR systems that support water reuse. Ongoing technological advancements and research and development efforts in the region also enhance the efficiency and effectiveness of MBRs, reinforcing North America's position as a major player in the global membrane bioreactor market.
In-depth interviews were conducted with Chief Executive Officers (CEOs), marketing directors, other innovation and technology directors, and executives from various key organizations operating in the membrane bioreactor market, and information was gathered from secondary research to determine and verify the market size of several segments:
• By Company Type: Tier 1 – 40%, Tier 2 – 30%, and Tier 3 – 30%
• By Designation: Managers– 10%, Directors – 20%, and Others – 70%
• By Region: North America – 22%, Europe – 22%, APAC – 45% and RoW- 11%
The key players in this market are Veolia (France), KUBOTA Corporation (Japan), Mitsubishi Chemical Corporation (Japan), TORAY INDUSTRIES, INC. (Japan), Kovalus Separation Solutions (US), Dupont (US), Evoqua Water Technologies LLC (US), Pentair (UK), Mann+Hummel (Germany), ALFA LAVAL (Sweden), CITIC Envirotech (China), and Aquatech (Canada).
Research Coverage
This report segments the membrane bioreactor market based on membrane type, system configuration, application, and region, and provides estimations for the overall value of the market across various regions. A detailed analysis of key industry players has been conducted to provide insights into their business overviews, products and services, key strategies, new product launches, expansions, and mergers and acquisitions associated with the membrane bioreactor market.
Key benefits of buying this report
This research report focuses on various levels of analysis, including industry analysis (industry trends), market ranking analysis of top players, and company profiles, which together provide an overall view of the competitive landscape, emerging and high-growth segments of the membrane bioreactor market, high-growth regions, and market drivers, restraints, opportunities, and challenges.
The report provides insights on the following pointers:
•Analysis of key drivers (Increasing demand for effective wastewater treatment, Rising stringent environmental regulations standards, Growing concern over water scarcity), restraints (Membrane fouling, High initial capital investment), opportunities (Increasing focus on sustainability, Integration of MBR technology with other advanced treatment processes) and challenges (Technical complexity of MBR systems, High energy consumption).
•Market Penetration: Comprehensive information on the membrane bioreactor market offered by top players in the global membrane bioreactor market.
•Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product launches in the membrane bioreactor market.
•Market Development: Comprehensive information about lucrative emerging markets — the report analyzes the markets for membrane bioreactor market across regions.
•Market Diversification: Exhaustive information about new products, untapped regions, and recent developments in the global membrane bioreactor market
•Competitive Assessment: In-depth assessment of market shares, strategies, products, and manufacturing capabilities of leading players in the membrane bioreactor market
The membrane bioreactor market is projected to reach USD 6.14 billion by 2029, at a CAGR of 8.2% from USD 4.14 billion in 2024. The rapid industrialization and urbanization in countries like China, India, and various Southeast Asian nations have increased wastewater production, creating a demand for efficient treatment systems. Water scarcity issues in many areas are pushing for technologies that recycle and generate high-quality effluent. Additionally, strict government regulations on water quality are encouraging industries and municipalities to implement MBR technologies. Advancements in membrane materials have improved efficiency and reduced costs, while growing awareness of environmental sustainability further promotes MBR adoption. These factors collectively position Asia-Pacific as a crucial market for MBRs.
“Based on membrane type, hollow fiber is expected to be the second fastest growing market during the forecast period, in terms of value.”
Hollow fiber membranes are the second fastest-growing type in the membrane bioreactor market due to their numerous advantages in wastewater treatment applications. These membranes offer a high surface area-to-volume ratio, which enhances filtration efficiency and allows for compact system designs, making them ideal for space-constrained environments. Their design also facilitates effective biomass retention and provides improved permeate quality, contributing to the overall performance of MBR systems. Additionally, hollow fiber membranes exhibit lower fouling rates, which reduces maintenance needs and operational costs over time. The continuous advancements in hollow fiber membrane technology, including the development of more durable and chemically resistant materials, have further boosted their adoption. As industries increasingly seek efficient, cost-effective, and sustainable wastewater treatment solutions, the appeal of hollow fiber membranes continues to grow, positioning them as a key player in the membrane bioreactor market.
“Based on system configuration, submerged MBR system is the second fastest growing market during the forecast period, in terms of value.”
The submerged membrane bioreactor (MBR) system is the second fastest-growing segment in the MBR market due to its efficient integration of membrane filtration and biological treatment processes. This design allows the membranes to be submerged directly in the aeration tank, enhancing the retention of biomass and promoting better contact between microorganisms and wastewater. The submerged configuration significantly reduces the footprint required for treatment facilities, making it particularly suitable for urban environments with space constraints. Additionally, the submerged MBR system tends to experience lower fouling rates and reduced operational costs, as the submerged membranes are less exposed to air and do not require backwashing. With increasing demand for effective and space-saving wastewater treatment solutions, the submerged MBR system is gaining traction in various applications, from municipal wastewater treatment to industrial processes, further driving its market growth.
“Based on application, industrial wastewater treatment is the second largest market during the forecast period, in terms of value.”
Industrial wastewater treatment is the second-largest application in the membrane bioreactor (MBR) market, primarily due to the increasing volume and complexity of wastewater produced by industries such as pharmaceuticals, food and beverage, and textiles. These sectors face stringent water quality standards to meet environmental regulations, which drives the demand for advanced treatment solutions like MBRs that can effectively remove contaminants and deliver high-quality effluent. MBR technology also offers benefits such as a compact design, smaller footprint, and lower operational costs compared to traditional treatment methods, making it an appealing choice for industries aiming to improve sustainability and efficiency in wastewater management. Furthermore, the growing focus on water reuse and resource recovery enhances the adoption of MBR systems in industrial applications, reinforcing their significant market share.
“Based on region, North America is the second largest market for membrane bioreactor in 2023, in terms of value.”
North America is the second-largest market for membrane bioreactors (MBRs) due to several key factors. The region boasts a robust industrial and municipal infrastructure, with significant sectors such as pharmaceuticals, chemicals, food and beverage, and automotive manufacturing driving the demand for advanced wastewater treatment solutions. Stringent environmental regulations, particularly from the U.S. Environmental Protection Agency (EPA), mandate high standards for wastewater discharge, making MBR technology an effective option for compliance. Furthermore, growing concerns over water scarcity and the need for sustainable water management practices are leading to increased investments in MBR systems that support water reuse. Ongoing technological advancements and research and development efforts in the region also enhance the efficiency and effectiveness of MBRs, reinforcing North America's position as a major player in the global membrane bioreactor market.
In-depth interviews were conducted with Chief Executive Officers (CEOs), marketing directors, other innovation and technology directors, and executives from various key organizations operating in the membrane bioreactor market, and information was gathered from secondary research to determine and verify the market size of several segments:
• By Company Type: Tier 1 – 40%, Tier 2 – 30%, and Tier 3 – 30%
• By Designation: Managers– 10%, Directors – 20%, and Others – 70%
• By Region: North America – 22%, Europe – 22%, APAC – 45% and RoW- 11%
The key players in this market are Veolia (France), KUBOTA Corporation (Japan), Mitsubishi Chemical Corporation (Japan), TORAY INDUSTRIES, INC. (Japan), Kovalus Separation Solutions (US), Dupont (US), Evoqua Water Technologies LLC (US), Pentair (UK), Mann+Hummel (Germany), ALFA LAVAL (Sweden), CITIC Envirotech (China), and Aquatech (Canada).
Research Coverage
This report segments the membrane bioreactor market based on membrane type, system configuration, application, and region, and provides estimations for the overall value of the market across various regions. A detailed analysis of key industry players has been conducted to provide insights into their business overviews, products and services, key strategies, new product launches, expansions, and mergers and acquisitions associated with the membrane bioreactor market.
Key benefits of buying this report
This research report focuses on various levels of analysis, including industry analysis (industry trends), market ranking analysis of top players, and company profiles, which together provide an overall view of the competitive landscape, emerging and high-growth segments of the membrane bioreactor market, high-growth regions, and market drivers, restraints, opportunities, and challenges.
The report provides insights on the following pointers:
•Analysis of key drivers (Increasing demand for effective wastewater treatment, Rising stringent environmental regulations standards, Growing concern over water scarcity), restraints (Membrane fouling, High initial capital investment), opportunities (Increasing focus on sustainability, Integration of MBR technology with other advanced treatment processes) and challenges (Technical complexity of MBR systems, High energy consumption).
•Market Penetration: Comprehensive information on the membrane bioreactor market offered by top players in the global membrane bioreactor market.
•Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product launches in the membrane bioreactor market.
•Market Development: Comprehensive information about lucrative emerging markets — the report analyzes the markets for membrane bioreactor market across regions.
•Market Diversification: Exhaustive information about new products, untapped regions, and recent developments in the global membrane bioreactor market
•Competitive Assessment: In-depth assessment of market shares, strategies, products, and manufacturing capabilities of leading players in the membrane bioreactor market
1 INTRODUCTION 25
1.1 STUDY OBJECTIVES 25
1.2 MARKET DEFINITION 25
1.3 STUDY SCOPE 26
1.3.1 MARKETS COVERED AND REGIONAL SCOPE 26
1.3.2 INCLUSIONS AND EXCLUSIONS 27
1.3.3 YEARS CONSIDERED 27
1.4 CURRENCY CONSIDERED 27
1.5 UNITS CONSIDERED 28
1.6 STAKEHOLDERS 28
1.7 SUMMARY OF CHANGES 28
2 RESEARCH METHODOLOGY 29
2.1 RESEARCH DATA 29
2.1.1 SECONDARY DATA 30
2.1.1.1 Key data from secondary sources 30
2.1.2 PRIMARY DATA 31
2.1.2.1 Key data from primary sources 31
2.1.2.2 List of primary interview participants (demand and supply side) 31
2.1.2.3 Key industry insights 32
2.1.2.4 Breakdown of primary interviews 32
2.2 MARKET SIZE ESTIMATION 33
2.2.1 BOTTOM-UP APPROACH 33
2.2.2 TOP-DOWN APPROACH 33
2.3 FORECAST NUMBER CALCULATION 34
2.4 DATA TRIANGULATION 35
2.5 FACTOR ANALYSIS 36
2.6 RESEARCH ASSUMPTIONS 36
2.7 RESEARCH LIMITATIONS AND RISK ASSESSMENT 37
3 EXECUTIVE SUMMARY 38
4 PREMIUM INSIGHTS 41
4.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN MEMBRANE BIOREACTOR MARKET 41
4.2 MEMBRANE BIOREACTOR MARKET, BY MEMBRANE TYPE 41
4.3 MEMBRANE BIOREACTOR MARKET, BY SYSTEM CONFIGURATION 42
4.4 MEMBRANE BIOREACTOR MARKET, BY APPLICATION 42
4.5 MEMBRANE BIOREACTOR MARKET, BY COUNTRY 43
5 MARKET OVERVIEW 44
5.1 INTRODUCTION 44
5.2 MARKET DYNAMICS 44
5.2.1 DRIVERS 45
5.2.1.1 Increasing demand for effective wastewater treatment 45
5.2.1.2 Rising stringent environmental regulations and standards 45
5.2.1.3 Growing concern regarding water scarcity 46
5.2.2 RESTRAINTS 47
5.2.2.1 Reduced system efficiency and increased operational costs due
to membrane fouling 47
5.2.2.2 High initial capital investment 47
5.2.3 OPPORTUNITIES 48
5.2.3.1 Increasing focus on sustainability 48
5.2.3.2 Integration of MBR technology with other advanced treatment processes 48
5.2.4 CHALLENGES 48
5.2.4.1 Technical complexity associated with MBR systems 48
5.2.4.2 High energy consumption 49
5.3 PORTER’S FIVE FORCES ANALYSIS 49
5.3.1 THREAT OF SUBSTITUTES 50
5.3.2 BARGAINING POWER OF SUPPLIERS 51
5.3.3 THREAT OF NEW ENTRANTS 51
5.3.4 BARGAINING POWER OF BUYERS 51
5.3.5 INTENSITY OF COMPETITIVE RIVALRY 51
5.4 KEY STAKEHOLDERS AND BUYING CRITERIA 52
5.4.1 KEY STAKEHOLDERS IN BUYING PROCESS 52
5.4.2 BUYING CRITERIA 53
5.5 MACROECONOMIC INDICATORS 54
5.5.1 GLOBAL GDP TRENDS 54
5.5.2 OIL & GAS STATISTICS 56
6 INDUSTRY TRENDS 57
6.1 INTRODUCTION 57
6.2 VALUE CHAIN ANALYSIS 57
6.3 REGULATORY LANDSCAPE 58
6.3.1 REGULATIONS 58
6.3.1.1 North America 58
6.3.1.2 Europe 59
6.3.1.3 Asia Pacific 60
6.3.2 STANDARDS 60
6.3.2.1 AWWA B130-2018 60
6.3.2.2 Common Effluent Treatment Plant (CETP) Standard 60
6.3.3 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 61
6.4 TRADE ANALYSIS 63
6.4.1 IMPORT SCENARIO (HS CODE 842121) 63
6.4.2 EXPORT SCENARIO (HS CODE 842121) 64
6.5 ECOSYSTEM ANALYSIS 64
6.6 TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS 66
6.7 CASE STUDY ANALYSIS 66
6.7.1 VEOLIA PROVIDED ZEEWEED MBR TECHNOLOGY TO AMERICAN CANYON 66
6.7.2 KUBOTA CORPORATION PROVIDED SUBMERGED MEMBRANE BIOREACTOR UNIT TO JAPANESE BREWERY PLANT 67
6.7.3 SPECIALTY POTATO PROCESSOR SELECTED EVOQUA’S ADI MBR FOR WASTEWATER TREATMENT 68
6.7.4 NOOSA YOGHURT PARTNERED WITH ADI SYSTEMS AND LOCAL ENGINEERING FIRM TO DESIGN ADI AEROBIC MBR WASTEWATER TREATMENT SYSTEM 68
6.8 TECHNOLOGY ANALYSIS 69
6.8.1 KEY TECHNOLOGIES 69
6.8.1.1 Aeration and mixing systems 69
6.8.1.2 Membrane filtration technology 69
6.8.2 COMPLEMENTARY TECHNOLOGIES 69
6.8.2.1 Membrane fouling mitigation technology 69
6.8.2.2 Aerobic granular sludge technology 70
6.9 KEY CONFERENCES AND EVENTS, 2024–2025 70
6.10 PATENT ANALYSIS 71
6.10.1 METHODOLOGY 71
6.10.2 DOCUMENT TYPES 71
6.10.3 PUBLICATION TRENDS IN LAST 10 YEARS 72
6.10.4 INSIGHTS 72
6.10.5 LEGAL STATUS OF PATENTS 73
6.10.6 JURISDICTION ANALYSIS 73
6.10.7 TOP APPLICANTS 74
6.11 IMPACT OF AI/GEN AI ON MEMBRANE BIOREACTOR MARKET 75
6.12 PRICING ANALYSIS 75
6.12.1 AVERAGE SELLING PRICE TREND, BY REGION 75
6.12.2 AVERAGE SELLING PRICE TREND OF KEY PLAYERS, BY MEMBRANE TYPE 76
6.13 INVESTMENT AND FUNDING SCENARIO 76
7 MEMBRANE BIOREACTOR MARKET, BY SYSTEM CONFIGURATION 77
7.1 INTRODUCTION 78
7.2 SUBMERGED MBR 79
7.2.1 REQUIREMENT OF MINIMUM SPACE, LIGHTWEIGHT, AND LOW ENERGY CONSUMPTION TO DRIVE DEMAND 79
7.3 EXTERNAL MBR 80
7.3.1 EASY INSTALLATION DUE TO LOW FOOTPRINT AND EFFECTIVE TAG REMOVAL FEATURE TO FUEL DEMAND 80
8 MEMBRANE BIOREACTOR MARKET, BY MEMBRANE TYPE 81
8.1 INTRODUCTION 82
8.2 HOLLOW FIBER 83
8.2.1 DURABILITY, FLEXIBILITY, AND EASY MAINTENANCE TO DRIVE DEMAND 83
8.3 FLAT SHEET 84
8.3.1 HIGH FILTRATION EFFICIENCY AND REDUCED FOULING TO FUEL DEMAND 84
8.4 MULTI-TUBULAR 84
8.4.1 HIGH MECHANICAL STRENGTH AND FOULING RESISTANCE
TO PROPEL DEMAND 84
9 MEMBRANE BIOREACTOR MARKET, BY APPLICATION 85
9.1 INTRODUCTION 86
9.2 MUNICIPAL WASTEWATER TREATMENT 88
9.2.1 RISING USE TO ADDRESS WATER SCARCITY PROBLEMS TO DRIVE MARKET 88
9.3 INDUSTRIAL WASTEWATER TREATMENT 88
9.3.1 FOOD & BEVERAGE 88
9.3.1.1 Rising use to control wastewater generated in beverage processing to fuel market growth 88
9.3.2 OIL & GAS 89
9.3.2.1 Capability to eliminate toxic substances and provide treated water for reuse to drive demand 89
9.3.3 PULP & PAPER 89
9.3.3.1 Production of less sludge during reaction process to drive demand 89
9.3.4 PHARMACEUTICAL 89
9.3.4.1 Ability to provide excellent disinfection and high-quality effluent to fuel demand 89
9.3.5 OTHER INDUSTRIAL WASTEWATER TREATMENT APPLICATIONS 90
10 MEMBRANE BIOREACTOR MARKET, BY REGION 91
10.1 INTRODUCTION 92
10.2 NORTH AMERICA 94
10.2.1 US 99
10.2.1.1 Presence of various end-use industries of MBRs and stringent regulations to drive demand 99
10.2.2 CANADA 101
10.2.2.1 Minimum effluent quality standards and rising wastewater treatment projects to drive market 101
10.2.3 MEXICO 102
10.2.3.1 Rising industrialization and MBR retrofitting to propel market 102
10.3 EUROPE 103
10.3.1 GERMANY 109
10.3.1.1 Strict implementation of regulations on wastewater treatment to drive market 109
10.3.2 FRANCE 111
10.3.2.1 Stringent regulations regarding drinking water and sewerage sludge treatment to propel market 111
10.3.3 UK 112
10.3.3.1 European directives and government-led investment plans in water
& wastewater treatment industry to propel market 112
10.3.4 ITALY 113
10.3.4.1 Growing need for clean water and sanitation due to rapidly increasing population to fuel market growth 113
10.3.5 SPAIN 115
10.3.5.1 Growing need for sustainable treatment and recycling technologies to fuel market growth 115
10.3.6 RUSSIA 116
10.3.6.1 Increasing need to modernize aging wastewater treatment infrastructure and meet stricter environmental standards to drive market growth 116
10.3.7 TURKEY 117
10.3.7.1 Ongoing technological advancements and increasing environmental awareness to fuel market growth 117
10.3.8 REST OF EUROPE 118
10.4 ASIA PACIFIC 119
10.4.1 CHINA 125
10.4.1.1 Presence of different end-use industries and stringent government regulations and policies for wastewater treatment to drive market 125
10.4.2 JAPAN 127
10.4.2.1 Development of advanced technologies, rapid industrialization, and efficient use of natural resources to fuel market growth 127
10.4.3 INDIA 128
10.4.3.1 Rising adoption of wastewater treatment technologies and growing urban population demanding clean water to drive market 128
10.4.4 SOUTH KOREA 129
10.4.4.1 Rising commercial construction to boost market growth 129
10.4.5 AUSTRALIA 131
10.4.5.1 Rising environmental awareness, stringent wastewater regulations, and increasing urbanization to boost market growth 131
10.4.6 REST OF ASIA PACIFIC 132
10.5 MIDDLE EAST & AFRICA 133
10.5.1 GCC COUNTRIES 138
10.5.1.1 Saudi Arabia 139
10.5.1.1.1 Rising investments in wastewater treatment for industrial and sewage applications contribute to market growth 139
10.5.1.2 Rest of GCC countries 140
10.5.2 EGYPT 141
10.5.2.1 Government policies associated with wastewater treatment infrastructure to propel market 141
10.5.3 SOUTH AFRICA 142
10.5.3.1 Stringent government regulations on wastewater disposal
to propel market 142
10.5.4 REST OF MIDDLE EAST & AFRICA 144
10.6 SOUTH AMERICA 145
10.6.1 BRAZIL 149
10.6.1.1 Government-led initiatives and rising investments in wastewater treatment projects to boost market growth 149
10.6.2 ARGENTINA 151
10.6.2.1 Increasing urbanization to drive market 151
10.6.3 REST OF SOUTH AMERICA 152
11 COMPETITIVE LANDSCAPE 154
11.1 OVERVIEW 154
11.2 KEY PLAYER STRATEGIES/RIGHT TO WIN 154
11.3 REVENUE ANALYSIS 158
11.4 MARKET SHARE ANALYSIS 159
11.5 COMPANY VALUATION AND FINANCIAL METRICS 161
11.6 BRAND/PRODUCT COMPARISON ANALYSIS 162
11.7 COMPANY EVALUATION MATRIX: KEY PLAYERS, 2023 163
11.7.1 STARS 163
11.7.2 EMERGING LEADERS 163
11.7.3 PERVASIVE PLAYERS 164
11.7.4 PARTICIPANTS 164
11.7.5 COMPANY FOOTPRINT: KEY PLAYERS, 2023 165
11.7.5.1 Company footprint 165
11.7.5.2 Membrane type footprint 166
11.7.5.3 System configuration footprint 167
11.7.5.4 Application footprint 168
11.7.5.5 Region footprint 169
11.8 COMPANY EVALUATION MATRIX: STARTUPS/SMES, 2023 170
11.8.1 PROGRESSIVE COMPANIES 170
11.8.2 RESPONSIVE COMPANIES 170
11.8.3 DYNAMIC COMPANIES 170
11.8.4 STARTING BLOCKS 170
11.8.5 COMPETITIVE BENCHMARKING: STARTUPS/SMES, 2023 172
11.8.5.1 Detailed list of key startups/SMEs 172
11.8.5.2 Competitive benchmarking of startups/SMEs 173
11.9 COMPETITIVE SCENARIO 174
11.9.1 PRODUCT LAUNCHES 174
11.9.2 DEALS 175
11.9.3 EXPANSIONS 177
12 COMPANY PROFILES 178
12.1 KEY PLAYERS 178
12.1.1 VEOLIA 178
12.1.1.1 Business overview 178
12.1.1.2 Products/Solutions/Services offered 179
12.1.1.3 Recent developments 181
12.1.1.3.1 Deals 181
12.1.1.4 MnM view 182
12.1.1.4.1 Key strengths/Right to win 182
12.1.1.4.2 Strategic choices 182
12.1.1.4.3 Weaknesses/Competitive threats 182
12.1.2 KUBOTA CORPORATION 183
12.1.2.1 Business overview 183
12.1.2.2 Products/Solutions/Services offered 184
12.1.2.3 Recent developments 185
12.1.2.3.1 Product launches 185
12.1.2.4 MnM view 185
12.1.2.4.1 Key strengths/Right to win 185
12.1.2.4.2 Strategic choices 185
12.1.2.4.3 Weaknesses/Competitive threats 185
12.1.3 MITSUBISHI CHEMICAL CORPORATION 186
12.1.3.1 Business overview 186
12.1.3.2 Products/Solutions/Services offered 187
12.1.3.3 MnM view 188
12.1.3.3.1 Key strengths/Right to win 188
12.1.3.3.2 Strategic choices 188
12.1.3.3.3 Weaknesses/Competitive threats 188
12.1.4 TORAY INDUSTRIES, INC. 189
12.1.4.1 Business overview 189
12.1.4.2 Products/Solutions/Services offered 190
12.1.4.3 MnM view 191
12.1.5 KOVALUS SEPARATION SOLUTIONS 192
12.1.5.1 Business overview 192
12.1.5.2 Products/Solutions/Services offered 192
12.1.5.3 Recent developments 193
12.1.5.3.1 Product launches 193
12.1.5.3.2 Deals 193
12.1.5.4 MnM view 194
12.1.6 DUPONT 195
12.1.6.1 Business overview 195
12.1.6.2 Products/Solutions/Services offered 196
12.1.6.3 Recent developments 197
12.1.6.3.1 Deals 197
12.1.6.4 MnM view 197
12.1.7 EVOQUA WATER TECHNOLOGIES LLC 198
12.1.7.1 Business overview 198
12.1.7.2 Products/Solutions/Services offered 199
12.1.7.3 Recent developments 200
12.1.7.3.1 Deals 200
12.1.7.4 MnM view 200
12.1.8 ALFA LAVAL 201
12.1.8.1 Business overview 201
12.1.8.2 Products/Solutions/Services offered 202
12.1.8.3 MnM view 203
12.1.9 PENTAIR 204
12.1.9.1 Business overview 204
12.1.9.2 Products/Solutions/Services offered 206
12.1.9.3 MnM view 206
12.1.10 MANN+HUMMEL 207
12.1.10.1 Business overview 207
12.1.10.2 Products/Solutions/Services offered 208
12.1.11 CITIC ENVIRONMENTAL TECHNOLOGIES CO., LTD. 209
12.1.11.1 Business overview 209
12.1.11.2 Products/Solutions/Services offered 209
12.1.11.3 Recent developments 210
12.1.11.3.1 Deals 210
12.1.12 AQUATECH 211
12.1.12.1 Business overview 211
12.1.12.2 Products/Solutions/Services offered 211
12.1.12.3 Recent developments 212
12.1.12.3.1 Expansions 212
12.2 OTHER PLAYERS 213
12.2.1 B&P WATER TECHNOLOGIES S.R.L. 213
12.2.2 BERGHOF MEMBRANE TECHNOLOGY GMBH 214
12.2.3 HUBER SE 214
12.2.4 LENNTECH B.V. 215
12.2.5 TRIQUA INTERNATIONAL 215
12.2.6 WEHRLE-WERK AG 216
12.2.7 EUROPE MEMBRANE 216
12.2.8 SIGMADAF 217
12.2.9 AQUAMATCH 217
12.2.10 HITACHI, LTD. 218
12.2.11 BIWATER HOLDINGS LIMITED 218
12.2.12 HYDROTECH 219
12.2.13 HINADA 219
13 APPENDIX 220
13.1 DISCUSSION GUIDE 220
13.2 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 223
13.3 CUSTOMIZATION OPTIONS 225
13.4 RELATED REPORTS 225
13.5 AUTHOR DETAILS 226
❖ 世界の膜分離型バイオリアクター市場に関するよくある質問(FAQ) ❖
・膜分離型バイオリアクターの世界市場規模は?
→MarketsandMarkets社は2024年の膜分離型バイオリアクターの世界市場規模を41.4億米ドルと推定しています。
・膜分離型バイオリアクターの世界市場予測は?
→MarketsandMarkets社は2029年の膜分離型バイオリアクターの世界市場規模を61.4億米ドルと予測しています。
・膜分離型バイオリアクター市場の成長率は?
→MarketsandMarkets社は膜分離型バイオリアクターの世界市場が2024年~2029年に年平均8.2%成長すると予測しています。
・世界の膜分離型バイオリアクター市場における主要企業は?
→MarketsandMarkets社は「Veolia (France)、KUBOTA Corporation (Japan)、Mitsubishi Chemical Corporation (Japan)、TORAY INDUSTRIES、INC. (Japan)、Kovalus Separation Solutions (US)、Dupont (US)、Evoqua Water Technologies LLC (US)、Pentair (UK)、Mann+Hummel (Germany)、ALFA LAVAL (Sweden)、CITIC Envirotech (China)、and Aquatech (Canada).など ...」をグローバル膜分離型バイオリアクター市場の主要企業として認識しています。
※上記FAQの市場規模、市場予測、成長率、主要企業に関する情報は本レポートの概要を作成した時点での情報であり、納品レポートの情報と少し異なる場合があります。
