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市場調査レポート
商品コード
1307981
ZLD(Zero Liquid Discharge)市場:プロセス別(前処理技術、蒸発プロセス、晶析プロセス、固形廃棄物処理プロセス、その他プロセス)、用途別(非産業用、産業用)、地域別-2030年までの世界予測Zero Liquid Discharge Market by Process (Pre-treatment Technology, Evaporation Process, Crystallization Process, Solid Waste Handling Process and Other Processes) Application (Non-industrial and Industrial) and Geography - Global Forecast to 2030 |
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ZLD(Zero Liquid Discharge)市場:プロセス別(前処理技術、蒸発プロセス、晶析プロセス、固形廃棄物処理プロセス、その他プロセス)、用途別(非産業用、産業用)、地域別-2030年までの世界予測 |
出版日: 2023年07月17日
発行: Meticulous Research
ページ情報: 英文 263 Pages
納期: 即納可能
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ZLD(Zero Liquid Discharge)とは、工場から排出される廃液を浄化し、再利用するための水処理技術です。その代わりに、プロセスで再利用されるきれいな水と、売却や再利用が可能な貴重な製品別を含むことが多い最小量の固形残渣に置き換えます。ZLDは、発電、化学・燃料精製、鉱業、蒸留、食品製造、廃棄物処理など幅広い産業に適しており、さまざまな廃棄物の流れやプロセスを処理するためにさまざまな装置が利用できます。しかし、この多様性がZLDの欠点のひとつでもあります。水中の汚染物質や化学物質、流量、返送水の純度などの要因を考慮し、システムごとに設計する必要があるからです。
ZLDシステムは、前処理段階、水の大部分を除去する蒸発段階、最終的な固体残渣を生成する濃縮または結晶化段階から構成されます。前処理は多くの場合、有機成分や、蒸発工程や他の設備にダメージを与える可能性のある化学物質を除去することに重点が置かれます。pH調整、凝集、膜処理、脱ガス、酸化、分離、好気性・嫌気性消化など、一般的な水処理のほとんどが、ZLDシステムの前処理として使用されています。
ZLD(Zero Liquid Discharge)市場の成長は、廃水処理規制を満たす必要性、利用可能な水・廃水処理オプションの不足、淡水源の不足によってもたらされます。しかし、高い設置・維持・運営コストと集中的なエネルギー消費がこの市場の成長を抑制しています。
さらに、貴重な資源の回収と、エネルギー効率の高い高度な水処理ソリューションに対する需要の高まりが、市場の成長機会を生み出すと予想されます。しかし、老朽化した水インフラのアップグレードと補修は、ZLD(Zero Liquid Discharge)市場にとって大きな課題です。
世界のZLD(Zero Liquid Discharge)市場は、プロセス、用途、地域別に区分されています。また、業界競合企業の評価や国別・地域別市場の分析も行っています。
The research report titled, 'Zero Liquid Discharge Market by Process (Pre-treatment Technology, Evaporation Process, Crystallization Process, Solid Waste Handling Process and Other Processes) Application (Non-industrial and Industrial) and Geography-Global Forecast to 2030', provides an in-depth analysis of the zero liquid discharge market in five major geographies and emphasizes on the current market trends, sizes, and shares, recent developments, and forecasts till 2030. The global zero liquid discharge market is expected to reach $11.7 billion by 2030, at a CAGR of 8.8% during the forecast period from 2023 to 2030.
Zero liquid discharge (ZLD) is a water treatment technique used to purify and recycle liquid waste from industrial plants. These are instead replaced with clean water, which is reused in the process, and the minimum amount of solid residues, which often include valuable byproducts that can be sold or reused. ZLD is suitable for a wide range of industries, including power production, chemical and fuel refining, mining, distillation, food production, and waste treatment, and a variety of equipment is available to treat different waste streams and processes. However, this diversity is also one of the drawbacks of ZLD, as every system needs to be designed on its own merits, considering factors such as the contamination or chemicals present in the water, flow rate, how pure the returned water needs and others.
ZLD systems comprise a pre-treatment phase, an evaporation phase to remove most of the water, and a further concentration or crystallization phase to produce the final solid residue. Pre-treatment often focuses on removing organic elements and any chemicals which could damage evaporation or other equipment later in the process. Most common water treatments, such as pH adjustment, flocculation, membrane processing, degasification, oxidation, separation, and aerobic & anaerobic digestion, have all been used as pre-treatments for ZLD systems.
The growth of the zero liquid discharge market is driven by the need to meet wastewater treatment regulations, a lack of available water and wastewater disposal options and the scarcity of freshwater sources. However, high installation, maintenance, and operating costs and intensive energy consumption restrain the growth of this market.
Furthermore, the recovery of valuable resources and growing demand for energy-efficient and advanced water treatment solutions are expected to create market growth opportunities. However, upgrading and repairing aging water infrastructure is a major challenge for the zero liquid discharge market.
The global zero liquid discharge market is segmented by process, application, and geography. The study also evaluates industry competitors and analyses the country and regional-level markets.
Based on process, the global zero liquid discharge market is segmented into pre-treatment technology, evaporation process, crystallization process, solid waste handling process, and other processes. The pre-treatment technology segment is expected to register the highest CAGR during the forecast period. The growth of this segment is attributed to the stringent environmental regulations and wastewater discharge limits imposed by authorities that incentivize industries to implement sustainable practices like ZLD. Furthermore, growing concerns over water scarcity and the need for freshwater conservation push industries to reduce their water footprint and maximize water recovery through ZLD systems. In addition, the potential cost savings achieved by recovering valuable resources from wastewater and reducing freshwater intake make ZLD an attractive solution for industries.
Based on application, the global zero liquid discharge market is segmented into non-industrial and industrial. The non-industrial segment is expected to register a higher CAGR during the forecast period. The adoption of ZLD technologies by municipalities and hospitals drives the segment's growth, leading to increased investments and advancements in ZLD technologies. Moreover, the need for regulatory compliance, hazardous waste management, infection control, water conservation, and resource management are key factors driving the adoption of ZLD systems across non-industrial sectors worldwide.
Based on geography, the zero liquid discharge market is segmented into North America, Europe, Asia-Pacific, Latin America, and the Middle East & Africa. The market in Asia-Pacific is slated to register the highest CAGR during the forecast period. The growth of this regional market is driven by the growing demand for advanced treatment solutions, advancements in membrane technology, environmental deterioration, declining availability of clean water, and increased research & development expenditures.
The key players operating in the global zero liquid discharge market are AQUARION AG (Switzerland), Veolia Environnement SA (France), Aquatech International LLC (U.S.), GEA Group Aktiengesellschaft (Germany), DuPont de Nemours, Inc. (U.S.), Evoqua Water Technologies LLC (U.S.), H2O GmbH (Germany), IDE Technologies (Israel), SafBon Water Service (China), Saltworks Technologies Inc. (Canada), WOG Technologies (India), Thermax Limited (India), Petro Sep Corporation (Canada), Samco Technologies, Inc. (U.S.), and Condorchem Envitech (Spain).
Zero Liquid Discharge Market Assessment-by Process
Zero Liquid Discharge Market Assessment-by Application
Zero Liquid Discharge Market Assessment-by Geography