Mercury Removal Adsorbents Market to Hit $1859.6 Million by 2032

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The global Mercury Removal Adsorbents Market was valued at USD 1216.6 Million in 2024 and it is estimated to garner USD 1859.6 Million by 2032 with a registered CAGR of 5.4% during the forecast period 2024 to 2032.

Firstly, the Market report for Mercury Removal Adsorbents Market describes the current state of the companies and recommends where it is likely to go next. The report shows the production, revenue, price, market share, and growth rate of each type, mainly divided into Product Types and Product Applications etc.

Additionally, this market report focuses on offering key business measures such as real market moves, market size, qualities, and freedoms, as well as forecast opportunities. This Mercury Removal Adsorbents Market report also offers distinctive insights into wealthy regions such as Europe, North America, the Middle East, Africa, and Latin America.

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Top Competitors:

UOP (Honeywell), Basf, Nanjing Zhenggao, Beijing Sanju, Calgon Carbon Corporation, Schlumberger, Axens, Cabot Corp, Pall Corporation, Nanjing Linda, Nucon, Johnson Matthey.

This market report has all the information you need to start or grow your business in the industry. It also includes market drivers, restraints, competitiveness, and geographic estimates, as well as a price and emerging market structure. It is a complete description of a company's business model, benchmarks, consumer preferences, value proposition, and net profit. This comprehensive Mercury Removal Adsorbents Market study also sheds light on key techniques that help companies truly assess their customers' buying behavior.

It represents global economic trends between 2024 and 2032. With the help of this market research, top companies can easily make smarter financial decisions. This market analysis is an excellent technique to help companies implement new products. It also includes critical data on major industry topics, including market expansions and evolving market conditions.

This well-researched Mercury Removal Adsorbents Market report describes the negative impact COVID-19 is having on various companies and offers companies recommendations on how to recover from the damage suffered by the outbreak as well as the nationwide quarantine. The plan analyzes the company's expectations and priorities, as well as the delivery of all crucial data.

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This report analyzes key market segments by type, application, and geography. The geographic analysis section covers key regions such as Europe, North America, the Middle East, Africa, and the Asia-Pacific region.

This Mercury Removal Adsorbents Market report not only provides valuable data but outlines key goals, pricing strategies, and approaches to help market participants' recommendations in this report will make accelerating economic growth easy. It offers some specific tips and business-related data to help new competitors in the market grow their businesses and diversify their product lines. Companies in the industry should choose tactics that include new product launches, mergers, and partnerships to survive in the competitive marketplace and strengthen their position.

Regional Analysis

-North America [United States, Canada, Mexico]

-South America [Brazil, Argentina, Columbia, Chile, Peru]

-Europe [Germany, UK, France, Italy, Russia, Spain, Netherlands, Turkey, Switzerland]

-Middle East & Africa [GCC, North Africa, South Africa]

-Asia-Pacific [China, Southeast Asia, India, Japan, Korea, Western Asia]

The quantitative information in this Mercury Removal Adsorbents Market analysis helps predict future sales and market penetration. This type of information is based on statistics. The qualitative information provided here will greatly help the key players understand the buyer's opinion of your brand. Improving business goals becomes easy with the information provided in this report.

The industries can draw some conclusions about their original goals. In business. This Mercury Removal Adsorbents Market research helps you make assumptions about your competition, customers, and the market in order to make informed business decisions. Additionally, it forecasts the competition in the market for the estimated period of 2024-2032. Effective decision-making in companies leads to business growth and is made possible by this precise market study.

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Some of the Key Questions Answered in this Report:

Which are the five top players of the Mercury Removal Adsorbents Market?

How will the Mercury Removal Adsorbents Market change in the upcoming years?

Which product and application will take a share of the Mercury Removal Adsorbents Market?

What will be the CAGR and size of the Mercury Removal Adsorbents Market throughout the forecast period?

What are the drivers and restraints of the Mercury Removal Adsorbents Market?

Which regional market will show the highest growth?

What is the current industry size, what will the market size be in 2030 and what will the growth rate be?

Who are the major competitors and what is their strategy?

What are the challenges to grow in the industry?

What are the market opportunities and challenges faced by the key vendors?

What are the barriers to entry for new players in the Mercury Removal Adsorbents industry?

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Activated Carbon Solutions Vital in Mitigating Industrial Pollutants

Activated Carbon Market size is expected to be worth around USD 5.4 billion by 2032 from USD 3.6 billion in 2022, growing at a CAGR of 4.2% during the forecast period 2023 to 2032.

The activated carbon market encompasses the production, distribution, and utilization of activated carbon, a highly porous form of carbon renowned for its exceptional adsorption capabilities. This material is primarily utilized in significant wastewater treatment applications, where its tiny pores and large surface area allow it to effectively adsorb and remove soluble substances from water.

 Activated carbon is extensively used in potable water systems and sewage treatment plants to filter out sediments, taste, odor, chlorine, and volatile organic compounds. 

Type Analysis

Powdered Activated Carbon (PAC) leads the market, valued at US$ 2,192 Mn in 2022, and is projected to grow at a 4.4% CAGR, driven by its high adsorption capacity and versatility in removing particulates. 

Form Analysis

Leading companies, like Kuraray Corporation, focus on gas-phase products for various applications, including gas separation and solvent extraction. The liquid phase also contributes significantly, driven by eco-friendly water treatment methods.

End-Use Analysis

Water treatment is the predominant application of activated carbon, vital for removing pollutants from industrial and municipal wastewater. The increasing adoption of efficient water disposal practices and innovative technologies in water treatment drive market growth. 

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Key Market Segments

By Type

Granular Activated Carbon

Powdered Activated Carbon

Other Types

By Form

Gas Phase

Liquid Phase

By End-Use

Air Purification

Food & Beverage Processing

Water Treatment

Pharmaceutical & Medical

Other End-Uses

Маrkеt Кеу Рlауеrѕ

CarbPure Technologies

Cabot Corporation

Boyce Carbon

Jacobi Carbons Group

CarboTech AC GmbH

Kuraray Co.

Haycarb (Pvt) Ltd.

Kureha Corporation

Donau Carbon GmbH

Calgon Carbon Corporation

Carbon Activated Corporation

Albemarle Corporation

Osaka Gas Chemicals Co

Silcarbon Aktivkohle GmbH

Evoqua Water Technologies LLC

Oxbow Activated Carbon LLC

Other Key Players

Driver: Supply-Demand Mismatch

The growth of the activated carbon market is driven by the implementation of advanced manufacturing technologies. Key raw materials include coconut shells, resin, and wood, with high carbon yields dependent on large quantities of these materials.

Restraint: Raw Material Availability

The availability of coconut shells, a crucial raw material for activated carbon, is highly susceptible to natural calamities, which can severely disrupt supply and production. Additionally, competition for these raw materials from other industries, such as power plants and iron plants, exacerbates the shortage and increases costs, hindering market expansion.

Opportunity: Mercury Control

With upcoming stringent emission standards in the US and Europe targeting mercury and other dangerous air pollutants, the demand for activated carbon is poised to grow, presenting significant market opportunities.

Challenge: 

The scarcity of safe drinking water, driven by water scarcity, climate change, and population growth, underscores the urgent need for effective water purification solutions. This global challenge amplifies the potential for the activated carbon market to expand as a critical component in providing access to pure drinking water.

Pelletized Activated Carbon Market Analysis 2023-2035

Research Nester assesses the growth and market size of the global pelletized activated carbon market which is anticipated to be on account of the growing government efforts to lower the levels of pollutants in the air and the rising need for wastewater treatment.

Research Nester’s recent market research analysis on “Pelletized Activated Carbon Market: Global Demand Analysis & Opportunity Outlook 2035” delivers a detailed competitors analysis and a detailed overview of the global pelletized activated carbon market in terms of market segmentation by type, application, end user, and by region.

Growing Air Pollution to Promote Global Market Share of Pelletized Activated Carbon

The global pelletized activated carbon market is estimated to grow majorly on account of the rising levels of air pollution in the world and the rise in the actions taken by governments of various nations to curb the pollution levels. Pelletized activated carbon is commonly employed in air filtration systems, such as activated carbon filters or carbon beds. These filters are installed in ventilation systems or air purifiers to remove harmful pollutants from the air. The porous structure of the activated carbon pellets allows them to trap and adsorb a wide range of airborne contaminants, including volatile organic compounds (VOCs), odors, gases, and particulate matter. According to the World Health Organization, in spite of improvement in some areas, overall urban air pollution levels increased by 8%.

Besides this, the rapid expansion of industrialization and the growing use of fuel cell has also contributed to the market growth. Alongside air pollutants, industrial activities can also generate strong odors, which can be a nuisance to surrounding communities. Activated carbon is commonly employed in industrial facilities, such as wastewater treatment plants, food processing units, and manufacturing plants, to control odorous emissions. Furthermore, fuel cells typically require a catalyst to facilitate the electrochemical reactions at the electrode surfaces. Pelletized activated carbon can serve as a support material for the catalyst used in fuel cell electrodes.

Some of the major growth factors and challenges that are associated with the growth of the global pelletized activated carbon market are:

Growth Drivers:

Surge in Toxic Pollutants in the Air

Growing Need for Removing Mercury from the Atmosphere

Challenges:

The use of activated carbon for water treatment faces competition from a lot of alternatives are some of the major factors anticipated to hamper the global market size of pelletized activated carbon. The water treatment industry offers a range of alternative technologies, such as membrane filtration, ion exchange resins, and advanced oxidation processes. These technologies may be more cost-effective or offer specific advantages in certain applications, posing competition to the market. On the other hand, the adsorption capacity of activated carbon pellets is limited. Pelletized activated carbon has a finite adsorption capacity, meaning it can only adsorb a certain number of contaminants before becoming saturated. The effectiveness of activated carbon is influenced by the concentration and characteristics of the contaminants in the water. In cases where the concentration of contaminants is high or these are specific challenging pollutants, additional treatment processes of higher constant times may be required.

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The global pelletized activated carbon market is divided into automotive, pharmaceutical, agriculture, mining, oil & gas, chemical, food & beverage, and manufacturing on the basis of end users. The automotive segment is to garner the highest revenue by the end of 2035 by growing at a significant CAGR over the forecast period. Modern vehicles often feature cabin air purification systems that utilize pelletized activated carbon. These systems help in removing pollutants, allergens, and odors from the air inside the vehicle, providing a healthier and more comfortable environment for the occupants. Furthermore, the market is split by application into metal recovery, water & wastewater treatment, filter, air & gas treatment, mercury removal, and catalyst. Out of all, the water and wastewater treatment is expected to generate the highest market revenue over the forecast period.

The Asia Pacific pelletized activated carbon market is expected to earn its greatest revenue by the end of 2035. This growth is anticipated by the presence of cities with maximum levels of pollutants in the air. Furthermore, the market in Europe is also expected to grow significantly during the projected time frame. European countries have implemented strict environmental regulations to curb air and water pollution. These regulations impose stringent emission limits and wastewater treatment standards on industries. On the other hand, Europe is at the forefront of renewable energy adoption and is actively promoting sustainable energy sources, which has further boosted the market growth in the region.

This report also provides the existing competitive scenario of some of the key players of the global pelletized activated carbon market which includes company profiling of Donau Chemie AG, Haycarb Plc, Jacobi Carbons GmbH, Kureha Corporation, Osaka Gas Co., Ltd., Evoqua Water Technologies LLC, Ingevity Corporation, CarbPure Technologies, Cabot Corporation, and Kuraray Co Ltd.

How To Use Activated Carbon In Water Treatment

Activated carbon is a specially treated carbon with numerous tiny pores and a huge surface area, with a surface area of 500-1500 square meters per gram of activated carbon. Activated carbon has strong physical adsorption and chemical adsorption functions, and also has a detoxification effect. The detoxification function is to use its huge area to adsorb the poison in the air of the activated carbon, thereby preventing the absorption of the poison. At the same time, activated carbon can bind to a variety of chemical substances, thereby preventing the absorption of these substances.

Because activated carbon has high requirements for water pretreatment and the price of activated carbon is expensive, in wastewater treatment, activated carbon is mainly used to remove trace pollutants in wastewater, which has achieved the purpose of deep purification.

(1) Activated carbon treatment of chromium-containing wastewater

Chromium is a metal raw material with a large amount in electroplating, and hexavalent chromium exists in different forms in wastewater with different pH.

Activated carbon has a very developed microporous structure and high specific surface area, and has strong physical adsorption capacity, which can effectively adsorb Cr(VI) in wastewater. There are a large number of oxygen-containing groups on the surface of activated carbon, such as hydroxyl (-OH). ), carboxyl group (-COOH), etc., they all have electrostatic adsorption function, and produce chemical adsorption for Cr(VI) after-sales service. It can be used to treat electroplating wastewater and can meet the national discharge standard.

The test shows that when the mass concentration of Cr(VI) in the solution is 50mg/L, PH=3, and the adsorption time is 1.5h, the adsorption performance of activated carbon and the detachment rate of Cr(VI) far reach the best effect. The process of chromium wastewater is the result of the combined effect of activated carbon on the physical adsorption, chemical adsorption and chemical reduction of Cr(VI) in solution. Activated carbon for treating chromium-containing wastewater has stable adsorption performance, high treatment efficiency, low operating cost, and has certain social and economic benefits.

(2) Activated carbon treatment of cyanide-containing wastewater

In industrial production, the wet extraction of gold and silver, the production of chemical fibers, coking, ammonia synthesis, electroplating, gas production and other industries all use cyanide or by-product cyanide, so a certain amount of cyanide must be discharged in the production process. waste water.

Activated carbon has a long history of being used to purify wastewater, and there are more and more literature reports on its application in the treatment of cyanide-containing wastewater. Varies by species), not cost-effective in handling.

(3) Activated carbon treatment of mercury-containing wastewater

Activated carbon has the properties of adsorbing mercury and mercury-containing compounds, but its adsorption capacity is limited, and it is only suitable for treating wastewater with low mercury content. If the concentration of mercury is high, it can be treated by chemical precipitation first, and the mercury content is 1 mg/L, and when it is high, it can reach 2-3 mg/L, and then activated carbon is used for further treatment.

(4) Activated carbon treatment of phenol-containing wastewater

Phenolic wastewater is widely sourced from petrochemical plants, resin plants, coking plants and refinery chemical plants. Experiments show that the adsorption performance of activated carbon for phenol is good, and the increase of temperature is not conducive to the adsorption, which reduces the adsorption capacity, but the time for reaching the adsorption equilibrium is shortened when the temperature is increased. There are optimal values ​​for the amount of activated carbon and the adsorption time. Under the acidic and ZTE conditions, the removal rate does not change much; under the strong alkaline condition, the phenol removal rate drops sharply. The stronger the alkalinity, the worse the adsorption effect.

(5) Activated carbon treatment of methanol-containing wastewater

Activated carbon can adsorb methanol, but its adsorption capacity is not strong, and it is only used to treat wastewater with low methanol content. The project operation results show that the COD of the mixed liquid can be reduced from 40mg/L to below 12mg/L, the removal rate of methanol can reach 93.16%~100%, and the water quality of the effluent can meet the water quality of the boiler desalination system. Require.

(6) Advanced Treatment in RefineryThe oil refinery contains wastewater, which, after oil separation, air flotation and biological treatment, is further treated by sand filtration and activated carbon filtration. The phenol content of wastewater was reduced from 0.1mg/L (after biological treatment) to 0.005mg/L, cyanide was reduced from 0.19mg/L to 0.048mg/L, and COD was reduced from 85mg/L to 18mg/L.

Activated Carbon Market

The global Activated Carbon Market is expected to experience significant growth in the coming years, according to a new report by DataM Intelligence. The report, titled "Activated Carbon Market Trends, Forecast, and Opportunity Analysis," predicts that the market will reach USD YY by 2023, growing at a CAGR of 5.8% during the forecast period 2023-2030.

The increased demand for water and air treatment devices is predicted to increase as water and air pollution levels rise. Demand for clean and potable water, as well as ongoing wastewater treatment, is likely to fuel market expansion in a variety of end-user industries.

Activated carbon, also known as activated charcoal, is a highly porous material with a large surface area. It is commonly used in a variety of applications, including air and water purification, food and beverage processing, pharmaceuticals, and industrial processes. Activated carbon is made by heating carbon-rich materials, such as wood, coconut shells, or coal, to high temperatures in the absence of air.

The growing demand for activated carbon in water treatment is one of the major drivers of market growth. The increasing global population, urbanization, and industrialization have led to a rise in water pollution, making water treatment a necessity. Activated carbon is an effective adsorbent that can remove impurities and contaminants from water, making it safe for consumption.

The increasing use of activated carbon in the food and beverage industry, for decolorization and removal of impurities, is also contributing to market growth.

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The rising demand for activated carbon in the pharmaceutical industry for the purification of active pharmaceutical ingredients (APIs) is expected to create significant growth opportunities for the market in the coming years. Additionally, the development of new applications for activated carbon, such as in energy storage and the automotive industry, is expected to drive market growth.

The increasing competition from alternative materials, such as zeolites and silica gels, is a challenge for the industry. Additionally, the environmental impact of activated carbon production and disposal is a growing concern, which may lead to stricter regulations in the future.

Activated Carbon Market Trends:

Activated carbon will assist energy businesses in meeting the mercury emission reduction criteria. The existing market participants are now developing the fourth generation of devices to remove mercury from flue gas even more efficiently.

Rules and regulations governing gasoline emissions from automobiles are also being tighter, necessitating the development of new products to absorb gasoline fumes. In the case of biogas, the business has created a solution that removes hydrogen sulphide and other impurities, allowing methane to be utilised to power turbines without causing harm.

Market Drivers:

The growing need for clean and pure water is expected to fuel the expansion of the activated carbon market. The feature of the product having a high surface area for adsorption that may eliminate pollutants such as taste, odour, germs, and oils imparting substances is credited to market development. Because of rising levels of water and air pollution, government officials have urged that industrial water waste be treated. Water treatment units can be installed in a variety of sectors, including paper and pulp, paints and dyes, and chemicals.

Restraints:

Nonetheless, it is projected that high raw material prices brought on by a scarcity would impede market growth.

Global Activated Carbon Market Regional Analysis:

Throughout the projection period, Asia Pacific is predicted to grow at a rapid pace. Coal is the primary source of power in Asia Pacific countries, increasing demand for activated carbon to reduce mercury emissions.

Asia Pacific emerged as the leading market across all regions due to fast industrialization and the implementation of many strict laws to address increasing environmental concerns, or legislation is projected to assist regional market growth in this area.

Moreover, mercury emissions in the Asia-Pacific region are rising, owing mostly to increased power generation in emerging countries such as China and India.

Segmentation Analysis:

The activated carbon market is categorized as follows: By type it is segmented by powdered activated carbon, granular activated carbon, and others. Powdered activated carbon is the leading activated carbon type, accounting for YY% of the market.

Powdered activated carbon is made through milling or pulverising activated carbon to generate tiny activated carbon particles with a size of less than 0.075mm.

This sort of activated carbon is used to treat small batches when partial treatment is needed, such as in hydrolyzed vegetable protein purification. In applications with high flow rates and minimal carbon dose to save money on capital. For seasonal applications such as controlling taste and odour in drinking water.

The activated carbon market is segmented by end-user into water treatment, pharmaceutical, automotive, personal care, and others. Water treatment is now the dominating segment, accounting for roughly YY% of the market.

Competitive Landscape:

Partnership and acquisition strategies will allow key players to expand their market share.

Companies profiled in the Activated Carbon Market include Osaka Gas Chemicals Co. Ltd, Kuraray Co. Ltd, Cabot Corporation, Jacobi Carbons Group, Haycarb PLC, Kureha Corporation, Donau Carbon GmbH, CarboTech AC GmbH, Silcarbon Aktivkohle GmbH, Asbury Carbons.

Cabot Company has employed many techniques to expand its worldwide footprint. These organisations service a wide range of end-user industries, which is expected to drive market expansion. Osaka Gas Chemicals Co., Ltd. employs and develops a variety of technologies to fulfil the demands of its customers.

Recent Development:

Cabot Corporation introduced the new ENERMAX 6 carbon nanotube series in March 2021. This series is intended to improve battery performance and energy density in batteries. It is also suggested that the internal resistance of the direct current of the battery cell be reduced.

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Global Mercury Removal Adsorbents Market 2019 | Manufacturers In-Depth Analysis Report to 2024

The latest trending report Global Mercury Removal Adsorbents Market 2019-2024 added by DecisionDatabases.com

Mercury, when present in gas processing facilities, can be a primary cause of corrosion, equipment failure and downstream catalyst deactivation. Mercury adsorbent products are used for removing mercury from gas phase hydrocarbons such as natural gas.

The worldwide market for Mercury Removal Adsorbents is expected to grow at a CAGR of roughly 6.3% over the next five years, will reach 1480 million US$ in 2024, from 1030 million US$ in 2019.

This report focuses on the Mercury Removal Adsorbents in global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application.

Browse the complete report and table of contents @ https://www.decisiondatabases.com/ip/29869-mercury-removal-adsorbents-market-analysis-report

Market Segment by Manufacturers, this report covers

·          Calgon Carbon Corporation

·          UOP (Honeywell)

·          Johnson Matthey

·          Cabot Corp

·          Pall Corporation

·          Nucon

·          Axens

·          Schlumberger

·          Basf

·          Beijing Sanju

·          Nanjing Linda

·          Nanjing Zhenggao

Market Segment by Regions, regional analysis covers

·          North America (United States, Canada and Mexico)

·          Europe (Germany, France, UK, Russia and Italy)

·          Asia-Pacific (China, Japan, Korea, India and Southeast Asia)

·          South America (Brazil, Argentina, Colombia etc.)

·          Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

Market Segment by Type, covers

·          Activated Carbon

·          Loaded Metal Adsorbent

·          Others

Market Segment by Applications, can be divided into

·          Oil and Gas Fields

·          Flue Gas

·          Others

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The content of the study subjects, includes a total of 15 chapters: Chapter 1, to describe Mercury Removal Adsorbents product scope, market overview, market opportunities, market driving force and market risks. Chapter 2, to profile the top manufacturers of Mercury Removal Adsorbents, with price, sales, revenue and global market share of Mercury Removal Adsorbents in 2017 and 2018. Chapter 3, the Mercury Removal Adsorbents competitive situation, sales, revenue and global market share of top manufacturers are analyzed emphatically by landscape contrast. Chapter 4, the Mercury Removal Adsorbents breakdown data are shown at the regional level, to show the sales, revenue and growth by regions, from 2014 to 2019. Chapter 5, 6, 7, 8 and 9, to break the sales data at the country level, with sales, revenue and market share for key countries in the world, from 2014 to 2019. Chapter 10 and 11, to segment the sales by type and application, with sales market share and growth rate by type, application, from 2014 to 2019. Chapter 12, Mercury Removal Adsorbents market forecast, by regions, type and application, with sales and revenue, from 2019 to 2024. Chapter 13, 14 and 15, to describe Mercury Removal Adsorbents sales channel, distributors, customers, research findings and conclusion, appendix and data source.

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Other Reports by DecisionDatabases.com:

Global Desiccant and Adsorbent Market 2018 by Manufacturers, Regions, Type and Application, Forecast to 2023

Global Molecular Sieve Adsorbents Market 2019 by Manufacturers, Regions, Type and Application, Forecast to 2024

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Effective Use of Biomass Wastes for Removing Hazardous Inorganic Ions from Aquatic Environment-Juniper Publishers

https://juniperpublishers.com/jojms/JOJMS.MS.ID.555621.php

Abstract

Trace concentrations of hazardous inorganic anionic species such as arsenate, phosphate, antimonite, selenite and fluoride can be effectively and selectively removed from water by means of adsorption using the gels prepared from biomass wastes such as orange juice residue loaded with multi-valent metal ions such as zirconium (IV). The adsorption capacities of these gels for arsenic are much higher than other adsorbents reported in literatures.

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Introduction

In recent years, pollution of water by various toxic materials has become serious all over the world especially in developing countries, caused by the development of industries in these countries. Among toxic materials, although mercury and lead are the most toxic, arsenic and fluorine are also toxic. Especially, pollution of underground water by arsenic in Bangladesh and India is well known. Although mercury and lead exist as cationic species in aquatic environments, majority of toxic inorganic materials exist as anionic species. For example, arsenic (III and V) exists oxo-anions such as arsenite (AsO33-) and arsenate (AsO43-), respectively. To avoid the pollution by these toxic elements, severe standards are required for effluents from industries in each country. For example, the typical standards in Japan are as follows; chromium (VI): 0.5, selenium: 0.1, arsenic: 0.1, flourine: 8 (unit; mg/dm3). To clear these standards, various techniques have been developed to date and some of them have been commercialized. The typical techniques are precipitation, electrochemical treatments, Donnan dialysis, ion exchange and adsorption. However, these conventional techniques are suffering from some drawbacks such as poor selectivity, high operation costs and so forth.

These toxic anionic species exist in trace concentrations in water together with excess concentrations of non-toxic anionic species such as carbonate and sulfate. Consequently, it is important to selectively remove these toxic anionic species over the non-toxic anionic species; i.e. the selectivity to the anionic species in question over other anionic species is the most important. Among the above-mentioned techniques, adsorption technique including ion exchange is the most suitable for removing trace concentration of hazardous materials. However, the majority of adsorbents suffer from low selectivity to the species in question. It is difficult to selectively adsorb the abovementioned anionic species using usual anion exchange materials such as commercially available anion exchange resins according to the well known Hoffmeister's selectivity series among anionic species [1]. For the adsorptive removal of these anionic species, the use of cation exchange materials such as strongly acidic cation exchange resins loaded with high-valent metal cations such as ferric ions exhibiting a high affinity for the anionic species in question has been proposed [2]. However, ion exchange resins suffer from another problem in case they are used for solutions containing fine solid particles or solid suspension; that is; these fine solid particles easily enter into micro-pores of ion exchange resins and clog the pores, impeding the smooth operation of adsorption.

We hit upon an idea to use some biomass wastes instead of synthetic ion exchange resins to effectively and selectively adsorb hazardous anionic species of arsenic [3,4], phosphorus [5,6], antimony [7], selenium [8] and fluorine [9-12]. The candidate biomass wastes are orange and apple juice residues and seaweeds wastes containing large amounts of functional groups of carboxylic acid; i.e. orange and apple juice residues contain pectic acid while sea-weeds contain alginic acid, the chemical structures of which are shown in Scheme 1. In this review article, we introduce the adsorptive removal of arsenic using the adsorption gel of orange juice residue as a typical example.

Mechanism of adsorption of toxic anionic species on metal-loaded biomass wastes

Cationic metal ions such as lead (II) and iron (III) are adsorbed on pectic acid and alginic acid by cation exchange reaction forming stable five-membered chelates as shown in Scheme 2; i.e. these polysaccharides function as natural chelating polymeric materials. In the case of adsorption of divalent metal ions such as copper (II) and lead (II), all of 2 positive charges of these metal ions may be neutralized by 2 carboxylic groups of these polysaccharides. However, in the case of trivalent and tetravalent metal ions such as ferric ion and zirconium ion which exhibit high affinity for the above-mentioned hazardous anionic species, it is difficult for all of these positive charges to be neutralized by the carboxylic acid functional groups due to strong steric hindrance of these polymeric materials [13-20]. The positive charges which are not neutralized by the carboxylic acid functional groups are neutralized by hydroxyl ions in water and these hydroxyl ions are substituted by the hazardous anionic species (Scheme 2).

Among the tested multi-valent metal ions loaded on orange juice residue, zirconium (IV) ion was found to be the most suitable metal ion to absorb the above-mentioned anionic species. As a typical example, Table 1shows the comparison of maximum adsorption capacities for arsenic (V and III) by zirconium (IV)- loaded orange juice residue gel and by other adsorbents reported in literatures. As can be seen from this table, the zirconium (IV)- loaded orange juice residue gel exhibit much higher adsorption than other adsorbents including the zirconium (IV)-loaded synthetic chelating resin. It was also verified that the adsorption gels of orange juice residue and waste sea-weed can effectively remove trace concentration of arsenic from actual acid mine drainage [21].

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Conclusion

Adsorption gels effective for removing trace concentration of hazardous anionic species such as arsenate, arsenite, phosphate and fluoride were prepared from orange juice residue and seaweed wastes in a simple manner. The adsorption capacities of these adsorption gels were higher than other adsorbents so far reported. It can be expected that these adsorbents aresuccessfully applied for actual waste solutions containing these hazardous anionic species.

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The report "Adsorbents Market by Type (Molecular Sieves, Activated Carbon, Silica Gel, Activated Alumina), Application (Petroleum refining, Chemicals/Petrochemicals, Gas refining, Water treatment, Air Separation & Drying, Packaging), & Region - Global Forecast to 2026" The global Adsorbents market size is projected to reach USD  5.6  billion by 2026, at a CAGR of 5.9% from 2021 to 2026.The global adsorbents market size is estimated to grow from USD 4.1 billion in 2021 to USD 5.6 billion by 2026, at a CAGR of 5.9% during the forecast period. Thedriving factors for the adsorbents market is the industry growth is backed by the large-scale developments in oil & gas processing and socio-economic advancements such as the increased use of adsorbents in maintaining purity standards in various applications and because of environmental concerns.

APAC accounted for the largest share of the Adsorbents market in 2020. The adsorbents market in APAC is driven by the demand from countries such as China, Japan, and India. Rapid industrialization, mainly in emerging economies such as China and India, has been one of the major factors driving the global adsorbents market. Adsorbents are widely used for removing and controlling contaminants from various industrial processes, such as the production of low sulfur fuels. They are extensively used for a wide range of applications, ranging from insulating glass windows to the removal of mercury in large-scale natural gas/crude oil wellheads. Adsorbents are an integral part of any process used in the manufacturing of modern-day specialized products. The market in APAC, owing to high demand, is much more dynamic and competitive than that in the western region. These factors are projected to drive the demand for adsorbents in APAC.

Arkema SA(France), Honeywell International Inc(US), Axens(France), BASF SE (Germany), Cabot Corporation(US), are the leading Adsorbents manufacturers, globally.

Activated Carbon Market Forecast 2018-2026 Global Insights, Growth Rate, Key Product

Global Activated Carbon Market: Trending in 2021

New York, NY 28 May 2021: According to a new study published by Polaris Market Research the global activated carbon market is anticipated to reach USD 13.44 billion by 2026.

Activated carbon is a widely used adsorbent and a major component in industrial processes. Composed of homogenous and micro porous structures along with higher surface areas it shows immense stability for radiation. Stringent regulatory framework mainly in the U.S. and China markets are expected to drive the activated carbon market growth. In these markets, along with other industrially developing countries, stringent regulatory framework have reflected rising emphasis on removal of mercury. This in contrast stringent regulatory framework and stepped up enforcements have stem them from efforts to fight water and air pollution caused due to rapid industrialization.

Increasing manufacturing activities in several industrializing countries have also added to product demand for the activated carbon market. Globally developing and increasing output from the pharmaceuticals and chemicals sector have also augmented for higher product demand due to increasing need of activated carbon for purifying feed water and several other components during manufacturing processes. Yearly increasing production of vehicles are supporting demand for activated carbon, owing to the fact that developing and even developed countries implement rigorous standards for emission from motor vehicles, thus creating the need for larger activated carbon based canisters.

Activated carbon injection technology has gained immense popularity as a primary technology for mercury removal mainly in coal-fired power plants, solid waste incinerators, cement plants and industrial boilers. Several European countries and Canada has also framed mercury emission standards, however these are not as stringent as that of in the U.S. Disinfection byproduct limit for water used for consumption is also projected to drive product demand for activated carbon market over the forecast period. This is however a mature application in most of the developed countries, but for the emerging nation especially for the Asia pacific region it is a promising end-use segment.

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The process for manufacturing of high performance activated carbons do not comply with the regulatory schemes of every developed nation and hence import or export of the products is a tedious task. Regenerated activated carbons do not retain efficiency to its full potential and increasing availability of effective yet inexpensive alternatives for activated carbon is a serious threat to the industry growth.

North America activated carbon market was the leading region in 2017. The U.S. Environment Protection Agency framed new forces of air and mercury toxic standards last year. These regulations require significant reductions for removal of mercury emitted from industrial processes. Stringent regulations for emission control in the country are the main reason that will increase demand for the product over the forecast period. Asia Pacific activated carbon market is anticipated to be the fastest growing market by 2026. China is the leading market in the region and implementation of their new five year plan for cutting down emission will drive product the activated carbon market demand over the forecast period.

Some of the leading industry participants in the activated carbon market include Oxbow Activated Carbon LLC, Prominent Systems Inc. , Silcarbon Aktivkohle GmbH , Donau Carbon GmbH , Kureha Corporation , Haycarb PLC  , Kuraray Co. Ltd , Calgon Carbon Corporation , Cabot Corporation  and Osaka Gas Co., Ltd.

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Activated Carbon Market Research Report, Growth Trends and Competitive Analysis

According to a new study published by Polaris Market Research the global Activated Carbon Market is anticipated to reach USD 13.44 billion by 2026.

Activated carbon is a widely used adsorbent and a major component in industrial processes. Composed of homogenous and micro porous structures along with higher surface areas it shows immense stability for radiation. Stringent regulatory framework mainly in the U.S. and China markets are expected to drive the activated carbon market growth. In these markets, along with other industrially developing countries, stringent regulatory framework have reflected rising emphasis on removal of mercury. This in contrast stringent regulatory framework and stepped up enforcements have stem them from efforts to fight water and air pollution caused due to rapid industrialization.

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Increasing manufacturing activities in several industrializing countries have also added to product demand for the activated carbon market. Globally developing and increasing output from the pharmaceuticals and chemicals sector have also augmented for higher product demand due to increasing need of activated carbon for purifying feed water and several other components during manufacturing processes. Yearly increasing production of vehicles are supporting demand for activated carbon, owing to the fact that developing and even developed countries implement rigorous standards for emission from motor vehicles, thus creating the need for larger activated carbon based canisters.

Activated carbon injection technology has gained immense popularity as a primary technology for mercury removal mainly in coal-fired power plants, solid waste incinerators, cement plants and industrial boilers. Several European countries and Canada has also framed mercury emission standards, however these are not as stringent as that of in the U.S. Disinfection byproduct limit for water used for consumption is also projected to drive product demand for activated carbon market over the forecast period. This is however a mature application in most of the developed countries, but for the emerging nation especially for the Asia pacific region it is a promising end-use segment.

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The process for manufacturing of high performance activated carbons do not comply with the regulatory schemes of every developed nation and hence import or export of the products is a tedious task. Regenerated activated carbons do not retain efficiency to its full potential and increasing availability of effective yet inexpensive alternatives for activated carbon is a serious threat to the industry growth.

North America activated carbon market was the leading region in 2017. The U.S. Environment Protection Agency framed new forces of air and mercury toxic standards last year. These regulations require significant reductions for removal of mercury emitted from industrial processes. Stringent regulations for emission control in the country are the main reason that will increase demand for the product over the forecast period. Asia Pacific activated carbon market is anticipated to be the fastest growing market by 2026. China is the leading market in the region and implementation of their new five year plan for cutting down emission will drive product the activated carbon market demand over the forecast period.

Some of the leading industry participants in the activated carbon market include Oxbow Activated Carbon LLC, Prominent Systems Inc. , Silcarbon Aktivkohle GmbH , Donau Carbon GmbH , Kureha Corporation , Haycarb PLC  , Kuraray Co. Ltd , Calgon Carbon Corporation , Cabot Corporation  and Osaka Gas Co., Ltd.

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Mercury Removal Adsorbents Market Status and Trend Analysis 2017-2026 (COVID-19 Version)

Mercury Removal Adsorbents Market Status and Trend Analysis 2017-2026 (COVID-19 Version)/caption]

Due to the pandemic, we have included a special section on the Impact of COVID 19 on the Mercury Removal Adsorbents Market Status and Trend Analysis 2017-2026 (COVID-19 Version) 2020-2026 which would mention How the Covid-19 is Affecting the Industry, Market Trends and Potential Opportunities in the COVID-19 Landscape, Key Regions and Proposal for Mercury Removal Adsorbents Market Status and Trend Analysis 2017-2026 (COVID-19 Version) Players to battle Covid-19 Impact.

Mercury Removal Adsorbents Market Status and Trend Analysis 2017-2026 (COVID-19 Version) 2020-2026The

Mercury Removal Adsorbents Market Status and Trend Analysis 2017-2026 (COVID-19 Version) 2020-2026

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Top Leading players covered in the Mercury Removal Adsorbents Market Status and Trend Analysis 2017-2026 (COVID-19 Version) report Pall Corporation Nucon International Cabot Corp Axens Calgon Carbon Corporation Honeywell International Johnson Matthey Schlumberger BASF and More...

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Market Segment by Type covers: Activated Carbon Resin Others

Market Segment by Application covers: Oil and Gas Environment Lab Water Treatment Others

Our Complimentary Sample Mercury Removal Adsorbents Market Status and Trend Analysis 2017-2026 (COVID-19 Version) Report Accommodate a Brief Introduction of the research report, TOC, List of Tables and Figures, Competitive Landscape and Geographic Segmentation, Innovation and Future Developments Based on Research Methodology.

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Regions Covered in the Global Mercury Removal Adsorbents Market Status and Trend Analysis 2017-2026 (COVID-19 Version):

• The Middle East and Africa (GCC Countries and Egypt)

• North America (the United States, Mexico, and Canada)

• South America (Brazil etc.)

• Europe (Turkey, Germany, Russia UK, Italy, France, etc.)

• Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)

Years Considered to Estimate the Mercury Removal Adsorbents Market Status and Trend Analysis 2017-2026 (COVID-19 Version) Size:

History Year: 2015-2019

Base Year: 2019

Estimated Year: 2020

Forecast Year: 2020-2026

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Adsorbent Market Estimated to Experience a Hike in Growth by 2025

Global Adsorbent Market: Snapshot

The global market for adsorbents has expanded at a steady pace in the past few years owing to a vast rise in its set of applications. The market continues to serve a rising number of areas, processes, and operations across a number of industries and is likely to witness a healthy growth pace over the period between 2017 and 2025. This report presents a thorough account of the past and present growth dynamics of the market and gives a detailed account of it’s potential future growth trajectory.

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One of the key factors to have worked favorably for the market is the vast rise in the global consumption of petroleum products—an industry which is a key consumer of adsorbents during a number of activities. Thus the constant rise in production of natural gas and crude oil over the recent years is also expected to have a positive implication on the overall scope of development of the global adsorbents market. The market is also expected to benefit from the thriving global pharmaceutical industry as adsorbents find use across applications such as drying of air-synthesis products, product deodorization, and instrument drying.

Geographically, the market in Asia Pacific is presently the dominant regional market for adsorbents, thanks mostly to the thriving packaging sector in the region. Owing to an increased demand for the safe delivery of a variety of packages containing products ranging across a number of industries, the region has witnessed the increased adoption of desiccants such as silica gel, which can protect products from moisture. Moreover, the steadily expanding electronics industry in the region, which is also an emerging market for desiccants, is also expected to drive the market for adsorbents.

Global Adsorbent Market: Overview

Adsorbents are insoluble materials with liquid covering the surface, including capillaries and pores. Adsorbents have the capability to contain certain amounts of liquid in small chambers just like a sponge. They play a crucial role in chemical absorption that occur when a particular substance gets trapped on the surface of the material.

The market for adsorbents has been rising steadily on the back of its range of applications. They have a crucial role in various industrial processes such as water purification, synthetic resin, and activated charcoal. They are also used across industries for capturing and reusing waste heat to produce cold water used in air conditioning. Besides, adsorbents help to reduce corrosion in different machinery and equipment in industries.

Global Adsorbent Market: Key Trends

At the forefront of driving the market for adsorbent is the rising industrialization, especially in the nations of India and China. This is because the materials find widespread usage in removing and controlling trace contaminants from different industrial processes, namely manufacturing low sulfur fuels. Apart from that, sustained expansion in key end use industries such as chemicals and petrochemicals and water and water treatment is also fuelling demand in the market.

Demand for adsorbents are also being underpinned by their application in insulating glass windows to stamp out of mercury in natural gas or crude oil wellhead.

There is one drawback, however, which is crimping growth in the market to an extent. It is the difficulty in procuring raw materials for a few kinds of adsorbents.This also makes those raw materials exorbitantly high priced.

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Global Adsorbent Market: Market Potential

There are various types of adsorbents available in the market such as silica gel, activated alumina, carbons, zeolites, polymers and resins, molecular sieves, and clay. Among them, the molecular sieves, having precise and uniform sized tiny pores, allow small molecules to pass while blocking the large ones. They form a significant proportion of adsorbents because of their widespread application in petrochemicals to eliminate trace contaminants namely sulfur and water from the feed, air separation to produce oxygen having high degree of purity, and drying applications.

Global Adsorbent Market: Regional Outlook

From a geographical perspective, North America is a region to lookout for in the global market for adsorbent both vis-à-vis value and volume. The wonder material is mostly used for air separation and drying and water treatment in the region. The adsorbents produced in the region are mainly exported to other regions. The U.S. accounts for a dominant position in the North America market.

Global Adsorbent Market: Competitive Dynamics

Despite a handful of players operating in the global market for adsorbents, overall competition is stiff on account of them pouring money into product development and on a constant lookout for mergers and acquisitions, joint ventures, and collaborations. Some such savvy companies in the market that have attained a prominent position are Arkema S.A, BASF SE, W.R Grace and Company, Calgon Carbon Corporation, and Axens S.A.

The global adsorbent market can be segmented into the following:

Global Adsorbent Market, by Type

Molecular sieves

Activated carbon

Silica gel

Activated alumina

Clay

Others

Global Adsorbent Market, by Application

Petroleum refining

Gas refining

Chemicals/petrochemicals

Water treatment

Air separation & drying

Packaging

Others

Global Adsorbent Market, by Region

Asia-Pacific

North America

Europe

RoW

China

India

Japan

South Korea

Rest of Asia-Pacific

U.S.

Canada

Mexico

Germany

Russia

U.K.

Italy

Rest of Europe

Brazil

Others

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Juniper Publishers- Open Access Journal of Case Studies

Groundwater Quality and Arsenic

Authored by Anil K Dwivedi

Abstract

Arsenic is one of the prominent contaminant, which is degrading the quality of groundwater naturally. In India, arsenic pollution in groundwater is mainly reported from West Bengal. Since its first reported case in early eighties, there are 1312 affected villages, 15 non-municipal and 9 municipalities in 8 districts in the State till date. On an approximation 34000 sq km area in the State is reported with high concentration of arsenic in drinking water abstracted from tube wells. The pollution is mostly reported from the intermediate water depth of 20-80 meter below ground level.

Introduction

Water Pollution is an alarm at the global level. The groundwater is continuously decreasing, in anthropogenic pressure as well as naturally. Arsenic is one of the prominent contaminant, which is degrading the quality of groundwater naturally. In India, arsenic pollution in groundwater is mainly reported from West Bengal. Since its first reported case in early eighties, there are 1312 affected villages, 15 non-municipal and 9 municipalities in 8 districts in the State till date. On an approximation 34000 sq km area in the State is reported with high concentration of arsenic in drinking water abstracted from tube wells. The pollution is mostly reported from the intermediate water depth of 20-80 meter below ground level. The arsenic anomaly in the State is associated with high iron, calcium, magnesium and bicarbonates with low sulphate, fluoride and chloride. The problem of arsenic pollution has been reported to be due to the geological formations of the source material. Occurrence of ‘arseno-pyrite’ and the change of geo-chemical environment due to over-exploitation of groundwater or excessive fluctuation of groundwater table.

Reports

Asadi et al. [1] have studied the assessment and mapping of water pollution of Municipal Corporation of Hyderabad using Remote Sensing and Geographic Information System (RS &GIS). They observed high concentration of total dissolved solids (TDS), nitrates, fluorides and total hardness in few industrial and densely populated areas indicated deteriorated water quality while the other areas exhibited moderate to good water quality. Bohi et al. [2] Performed physicochemical analysis of bore well drinking water of Nadia territory. They analyzed the water samples during February 2003 to June 2003 in order to assess water quality index (WQI). Joshi et al. [3] evaluated the underground water quality of Vagdodtaluka of Gujarat.

Rajmohan et al. [4] measured the major ion correlation in the groundwater of Kancheepuram region of South India. They analyzed the physicochemical characteristics such as pH, electrical conductivity and total dissolved solids (TDS) and ions like Ca+2, Mg+2, Na+, K+, Cl , HCO3-, CO3-2, SO4-2, NO3- etc. of the groundwater of bore well and dug wells of the area. The analysis indicated that most of the elements were positively correlated. Dwivedi et al. [5] also reported the crude agricultural practices to be one of the prominent causes of the groundwater pollution in most of the cases, from the rural belt in India.

Rajurkar et al. (2003) have tested the physicochemical and biological parameters of the water of river Umshyrpi at Shillong (Meghalaya). The river is highly polluted by different kinds of wastes viz. domestic wastes, solid wastes and agricultural runoff from the surrounding areas. The results showed that the physicochemical parameters were within the permissible limits, whereas, the biological parameters were exceeding the permissible limits. This indicated the alarm against the potability of the water. Singh and Singh (2003) have surveyed the groundwater markets and equity and reliability to the water access in Western U. P. Bahador et al. [6] have studied the seasonal variation of microbial pollution in surface water of Pune city (Maharashtra). They reported that the total viable count in monsoon was more than the summer and the winter seasons. The foecal coliform bacteria were found from all the sites in all the seasons but their number was more in monsoon. They also isolated few pathogenic bacterial species such as Salmonella from three different sites.

Ahmad & Alam [7] performed physicochemical and toxicological studies of groundwater and industrial effluents in and around Delhi. They determined the chemical contaminants such as mercury, cadmium, chromium, lead, nickel, iron, and zinc in the underground water, drains and Yamuna river. They found that the water quality parameters were very poor, except the samples of upstream.

Garg et al. [8] analyzed the groundwater quality in Western zone of Hissar (Haryana). The results revealed a positive and significant correlation of electrical conductivity with TDS, sodium, calcium, chloride, sulphate and total hardness. They also found that total hardness was positively and significantly correlated with calcium, magnesium, chloride and sulphate, whereas, total alkalinity was positively and significantly correlated with bicarbonate. Anthropecology of the water bodies with respect to development, and politics has been studied in detail and the findings have been elaborated by Dwivedi et al. [9] Tripathi et al. [10]. The flexible policies of the government have also been reported to be also the cause of the flood in India Dwivedi & Shashi [11]. Singh & Dwivedi (2011) have discussed the status and statues regarding the ground water.

Lalitha et al. [12] assessed the drinking water quality in selected pilgrim centres near Tiruchirapalli. They analyzed the water samples for various physicochemical and biological parameters and the results were compared with ISI, WHO and USPHS standards. They calculated water quality index (WQI) and suggested suitable treatment methods. Nirmal et al. [13] investigated the physicochemical properties of

groundwater in and around Anand district (Gujarat). They found that there was a wide variation in water quality from sample to sample and the amount of TDS, alkalinity and magnesium hardness was recorded very high in most of the water samples. Singh et al. [14] have analyzed the water quality aspects of some wells, springs and rivers in Udhampur (J & K). The study showed alkaline nature of groundwater. Calcium and magnesium were the dominating cations and bicarbonate was the major anion in the study area.

Shashi & Dwivedi [15], Dwivedi & Prajapati [16] have applied the experimental approach for the study of pollution of the rivers Varuna in Varanasi and river Aami in Gorakhpur, respectively. The same with respect to the groundwater pollution has been elaborated by Shashi & Dwivedi [17], Dwivedi & Prajapati [18] tested the groundwater quality status in Amini islands of Lakshadweep. They have reported that the total hardness and salinity were found to be most critical water quality parameter exceeding the permissible limits of drinking water standards. They also observed that the hardness and salinity were comparatively better on the lagoon side as compared to sea side.

Piska et al. [19] studied the heavy metal pollution and its effect on groundwater quality of Jeedimelta industrial area, Hyderabad. They analyzed various heavy metals such as Cd, Hg, Pb, Cr, Co, Ba etc. along with pH and electrical conductivity. The results indicated that all the heavy metals including electrical conductivity values were above the permissible limit of WHO. They found that groundwater was highly polluted and was unfit for domestic, irrigation and for fishery purposes. Jain et al. [20] studied the correlation coefficient of some physicochemical characteristics of groundwater of Jabalpur. They reported that high positive correlation was found between pH and fluoride, electrical conductivity and HCO3-, SO4-2 and Na+, Ca+2 and NO3-, Na+ and Cl-, K+ and Cl- and high negative correlation was obtained between Cl- and PO4-3 and pH and PO4-3.

Azmi & Banerjee [21] performed biological stabilization of textile waste and dye stuff industrial waste. They have suggested that the effluents from textile and dyeing industries polluted the groundwater of the adjoining area. Suriyanarayanan et al. [22] evaluated the groundwater of Kanchipuram and observed that the groundwater was polluted by a waste paper based paper mill effluent. Wagh & Shrivastava [23] evaluated the impact of heavy metals on soil and groundwater. Tandel & Oza [24] have implied “Powdered Activated” and “Powdered Commercial Charcoal” as adsorbents for removal of copper and nickel from waste water of electroplating industry. They found that higher efficiency value of adsorption was obtained at lower dose of powdered activated charcoal which removed 61.28% copper and 50.35% nickel at a maximum dose of 25g/L, whereas similar dose of powdered commercial charcoal removed 28.74% copper and 24.80% nickel respectively. Jogi & Ilyas [25] used “Maize Husk” for the removal of iron from industrial waste water. They observed that iron was heavily adsorbed on the maize husk and it was found to be very effective for removal of iron [26-28].

Conclusion

These selected studies indicate towards the importance of the groundwater and its need for the future. It is also indicated that sustainable development should be preferred over the simple development. Arsenic, though it is contaminating the groundwater naturally, but the human interference in this phenomenon, directly or indirectly cannot be over-ruled.

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Wood Activated Carbon Market Set to Witness an Uptick during 2026

According to a new report titled ‘Wood Activated Carbon Market: Global Industry Analysis, Size, Share, Growth, Trends, and Forecast, 2018–2026,’ published by Transparency Market Research (TMR), the global wood activated carbon market was valued at US$ 785.80 Mn in 2017 and is anticipated to expand at a CAGR of 8.1% from 2018 to 2026. The global wood activated carbon market is driven by stringent regulations on mercury emission from power plants. Asia Pacific accounts for a major share of the global wood activated carbon market, due to rigid government regulations regarding atmospheric emission of hazardous substances, particulate matter, and greenhouse gases in various industries in the region.

Environmental Regulations on Mercury Emission from Power Plants to Drive Market

Mercury is a toxic and corrosive material that is present in small amount in various gas and liquid streams. Power generation sources emit more than 70% of mercury in the air across the globe. Thermal and coal-fired power plants are key sources responsible for producing these hazardous gases. Wood activated carbon adsorption process is a suitable processes for removing mercury. It is an excellent carrier for various impregnates, as it physically reacts with the mercury and holds it within the adsorbent particles. Increase in governmental pressure to maintain the air quality and reduce mercury level is anticipated to boost the demand for wood activated carbon in the near future. Developed and developing economies, such as the U.S. and China, are implementing control strategies to reduce mercury emissions. For instance, the U.S. is estimated to reduce mercury emission to 18.2 tons by 2020, while China is likely to reduce emission by 77.5 tons by 2020. Control targets set by these countries and characteristic properties, such as high surface area, fine particle size, and open pore structure, are expected to boost the demand for wood activated carbon in the removal process of flue gas contaminants during the forecast period. Activated carbon injection system is an effective technology which is gaining momentum in controlling gaseous emissions. This technology is anticipated to create significant opportunities for wood activated carbon manufacturers in the near future. In 2011, Standard Carbon LLC developed Stratocarb, a powdered activated carbon (PAC) manufactured from wood, especially for flue gas mercury removal applications.

Expansion of End-user Industries in Developing Economies to Create Opportunities

Economic growth in countries in Asia Pacific and Middle East & Africa is creating lucrative opportunities for wood activated carbon manufacturers. The market in developing nations is expanding due to significant expansion of chemical, automotive, and pharmaceutical industries. Thus, manufacturers are shifting their focus away from developed economies. Water pollution has become a major global concern, as industrial effluents, sewage waste, and agrochemicals are being discharged into water bodies. Advancements in chemical processing industries and drinking water technologies, especially in India, Brazil, GCC, and China, is likely to boost the demand for wood activated carbon. Wood activated carbon is a highly effective water filtration media that is used to remove contaminants from industrial and municipal wastewater and groundwater. Usage of new technologies, such as plasma processing for surface enhancement of wood activated carbon, is gaining momentum. Surface medication with this technology entails exposure of wood activated carbon to plasma under vacuum, thus altering its textural properties. Regeneration of wood activated carbon from industrial effluents is another technology that is likely to reduce the dependency on virgin raw material sources in the next few years. These factors are expected to create lucrative opportunities to manufacturers in the near future.

Volatility in Raw Material Prices to Hamper Wood Activated Carbon Market

The global wood activated carbon market is prone to fluctuations in prices of raw materials such as saw dust, wood pellets, wood flour, and other pretreatment chemicals such as calcium chloride. Constant volatility in prices of raw materials is adversely affecting the wood activated carbon market. Additionally, these raw materials are consumed in other end-user industries, such as fuel generation, wood pulp, and synthetic resins, thereby affecting the supply and demand of raw materials and overall production of wood activated carbon. Stiff competition from substitutes, such as coconut shell, and implementation of stringent regulations regarding deforestation are key factors that are estimated to restrain the market during the forecast period.

Removal of Impurities Segment to Dominate Global Wood Activated Carbon Market

The global wood activated carbon market has been segmented based on application and region. Based on application, the market can be divided into gas adsorption, removal of impurities, decolorization, and others. Removal of impurities accounts for a dominant share of the market. Rise in demand for water treatment, which includes drinking water treatment, groundwater rehabilitation, treatment of service water, and wastewater treatment, to remove contaminants is expected to propel the demand for wood activated carbon during the forecast period.

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Asia Pacific Dominates Global Wood Activated Carbon Market

In terms of region, Asia Pacific accounted for a major share of the global wood activated carbon market in 2017. China, India, and ASEAN are expected to create lucrative opportunities for manufacturers of wood activated carbon in the near future due to rapid industrialization and economic growth. Increase in the number of water treatment plants installed to remove organic chemicals in water and improve the taste and odor of potable water is boosting the market in Asia Pacific. Implementation of stringent regulations on mercury emission, by Environmental Protection Agency, and rise in demand for efficient canisters for the automotive industry, especially in the U.S. and Germany, are propelling the demand for wood activated carbon in North America and Europe. The market in Latin America and Middle East & Africa is expanding at a sluggish pace; however, rise in industrialization in Brazil and increase in government funding to provide better water technologies and energy-efficient desalination, especially in GCC, are expected to boost the market in these regions. These factors are driving the global wood activated carbon market.

High Degree of Competition among Established Players

Key players profiled in the report include Cabot Corporation, Calgon Carbon Corporation, Carbon Activated Corporation, CarboTech AC GmbH, CECA SA, Donau Chemie AG, Fujian Zhixing Activated Carbon Co., Ltd., Ingevity Corporation, Kuraray Chemical Corporation Ltd., Osaka Gas Chemicals Co. Ltd., Oxbow Activated Carbon LLC, and Zhejiang Xingda Activated Carbon Co., Ltd. The top players (Kuraray Chemicals Co Ltd., Cabot Corporation, Ingevity Corporation, and Osaka Gas Chemicals Co. Ltd.) cumulatively accounted for more than 50% share of the market in 2017. These companies consistently engage in strategies, such as mergers & acquisitions, to expand their capacity and product portfolios. For instance, in 2018, Kuraray Chemicals Co Ltd. acquired Calgon Carbon Corporation, a leading player in the wood activated carbon market.

The report "Adsorbents Market by Type (Molecular Sieves, Activated Carbon, Silica Gel, Activated Alumina), Application (Petroleum refining, Chemicals/Petrochemicals, Gas refining, Water treatment, Air Separation & Drying, Packaging), & Region - Global Forecast to 2026" The global Adsorbents market size is projected to reach USD  5.6  billion by 2026, at a CAGR of 5.9% from 2021 to 2026.The global adsorbents market size is estimated to grow from USD 4.1 billion in 2021 to USD 5.6 billion by 2026, at a CAGR of 5.9% during the forecast period. Thedriving factors for the adsorbents market is the industry growth is backed by the large-scale developments in oil & gas processing and socio-economic advancements such as the increased use of adsorbents in maintaining purity standards in various applications and because of environmental concerns.

APAC accounted for the largest share of the Adsorbents market in 2020. The adsorbents market in APAC is driven by the demand from countries such as China, Japan, and India. Rapid industrialization, mainly in emerging economies such as China and India, has been one of the major factors driving the global adsorbents market. Adsorbents are widely used for removing and controlling contaminants from various industrial processes, such as the production of low sulfur fuels. They are extensively used for a wide range of applications, ranging from insulating glass windows to the removal of mercury in large-scale natural gas/crude oil wellheads. Adsorbents are an integral part of any process used in the manufacturing of modern-day specialized products. The market in APAC, owing to high demand, is much more dynamic and competitive than that in the western region. These factors are projected to drive the demand for adsorbents in APAC.

Arkema SA(France), Honeywell International Inc(US), Axens(France), BASF SE (Germany), Cabot Corporation(US), are the leading Adsorbents manufacturers, globally.