Zero Liquid Discharge Systems Market - Global Industry Size, Share, Trends, Opportunity, and Forecast 2018-2028, Segmented By Technology (Ultrafiltration, Reverse Osmosis, Evaporation/Crystallization, and Fractional Electrode ionization), By End-Use Industry (Chemicals & Petrochemicals, Food & Beverages, Energy & Power, Pharmaceuticals and Others), By Plant Category (Less Than 100 MLD, 101- 200 ML

Published Date: December - 2024 | Publisher: MIR | No of Pages: 320 | Industry: Water and Waste Management | Format: Report available in PDF / Excel Format

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Zero Liquid Discharge Systems Market - Global Industry Size, Share, Trends, Opportunity, and Forecast 2018-2028, Segmented By Technology (Ultrafiltration, Reverse Osmosis, Evaporation/Crystallization, and Fractional Electrode ionization), By End-Use Industry (Chemicals & Petrochemicals, Food & Beverages, Energy & Power, Pharmaceuticals and Others), By Plant Category (Less Than 100 MLD, 101- 200 ML

Global Zero Liquid Discharge Systems Market

Growing market demand for cutting-edge ZLD technology is being driven by rising investment

Numerous local and foreign investments are made in water and wastewater management technologies to achieve sustainable development goals across areas. In the coming years, this is anticipated to fuel the market for zero liquid discharge systems.

To recover valuable minerals and byproducts from waste streams, zero liquid discharge processes are increasingly being employed in the mining and industrial sectors. The strict policies and guidelines for industrial plants and municipal bodies to fulfil zero liquid discharge norms have been established and implemented by regulations governing wastewater discharge limits in several countries around the world to stop the deterioration of water quality in those countries. This is a consequence of a rising understanding of the need to protect the environment from the release of damaging wastewater effluents. Due to this the market is expected to grow in the forecast period.

Recently, the demand for freshwater for domestic, industrial, and drinking uses has exceeded availability.. One use of Zero Liquid Discharge (ZLD) technology is the desalination of saltwater to produce drinking water. To create water with zero discharge of liquid waste from the process, the concentrate is additionally processed in applications of zero liquid discharge (ZLD) for desalination. Nowadays, ZLD desalination methods are mostly used to treat industrial waste streams and cooling water from power plants. Evaporation ponds and thermal desalination are ZLD methods with a strong history. As a result, the use of ZLD for desalination has been a major factor in the market's growth.

Rising Membrane Technology Fueling the ZLD Market

Instead of a Membrane Brine Concentrator (MBC), membrane technology could be used for the important intermediate phase of the ZLD process, providing lower energy usage, cheaper capital costs, increased dependability, and the opportunity to achieve higher water recovery. As a result, the final ZLD phase of crystallization may proceed with less flow and energy.

New technologies, such as forward osmosis (FO) membranes and electro-separation systems in the field of ZLD (Zero Liquid Discharge), have been launched for the treatment of high salinity brines. The low operating pressure and quick crossflow velocity of the forward osmosis membrane technology make it more effective in separating dissolved solids from high fouling streams.

Additionally, rules supplied by regulatory organizations are the ZLD requirements established by the EU Water Framework Directive in the European Union and the Effluent Limitation Guidelines (ELGs) established by the Environmental Protection Agency in the United States.

Instead of a Membrane Brine Concentrator (MBC), membrane technology could be used for the important intermediate phase of the ZLD process, providing lower energy usage, cheaper capital costs, increased dependability, and the opportunity to achieve higher water recovery. As a result, the final ZLD phase of crystallization proceeds with less flow and energy.

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Market Segmentation

The Global Zero Liquid Discharge Systems Market is segmented into technology, end-use industry, plant category, region and competitive landscape. Based on technology, the market is segmented into

Market player

Major players operating in the Global Zero Liquid Discharge Systems Market are

MIR Segment1

Recent Developments

Godavari Biorefineries Limited (GBL) opened its improved, cutting-edge zero liquid discharge (ZLD) plant in November 2019. The ZLD facility is put up in its Sakarwadi, Maharashtra, manufacturing site. Various biological treatments would be used, as well as ultra-filtration, reverse osmosis, agitated thin film drying, and evaporation processes would be used at the site, to enable removal of contaminants and purification at various stages in order to achieve zero liquid discharge.

Fluence Corporation Limited stated in April 2019 that it had signed a deal with Rosenblad Design Group for the provision of a water treatment reuse system (Rosenblad). Reverse osmosis and ultrafiltration will be used by the company's ZLD system to handle brine reuse. The equipment would be implemented as part of the substantial turnkey project that Rosenblad is constructing in California.

Attribute

Details

Base Year

2022

Historic Data

2018– 2021

Estimated Year

2023

Forecast Period

2024 – 2028

Quantitative Units

Revenue in USD Million, and CAGR for 2018 -2022 and 2023 - 2028

Report coverage

Revenue forecast, Company Share, growth factors, and trends

Segments covered

By Technology

By End-Use

By Industry

By Plant Category

Regional scope

North America; Asia-Pacific; Europe; South America; Middle East & Africa

Country scope

United States; Canada; Mexico; China; Indian; Japan; South Korea; Australia; Singapore; Malaysia; Germany; United Kingdom; France; Italy; Spain; Poland; Denmark; Colombia; Brazil; Argentina; Peru; Chile; Saudi Arabia; South Africa; UAE; Iraq; Turkey

Key companies profiled

GE Water & Process Technologies, Veolia Water Technologies, GEA Group AG, Praj Industries Ltd, Aquatech International LLC, H2o GmbH, U.S. Water Services, Inc, Aquarion AG, Saltworks Technologies, Doosan Hydro Technology LLC

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