Zinc Dust Market Growth, Overview with Detailed Analysis 2022-2030

Zinc Dust Market Growth, Overview with Detailed Analysis 2022-2030

The Zinc Dust Market research report 2022-2030 provides an in-depth analysis of the changing trends, opportunities, and challenges influencing the growth over the next decade. The study includes a detailed summary of each market along with data related to demand, supply and distribution. The report examines Zinc Dust market growth strategies adopted by leading manufacturers which include new…

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Sodium Lignosulfonate Market Insight, Outlook, Forecast 2022-2029

BlueWeave Consulting, a leading strategic consulting and market research firm, in its recent study, estimated the global sodium lignosulfonate market size at USD 1.19 billion in 2022. During the forecast period between 2023 and 2029, BlueWeave expects the global sodium lignosulfonate market size to grow at a significant CAGR of 3.78% reaching a value of USD 1.49 billion by 2029. Major growth drivers for the global sodium lignosulfonate market include a surging number of residential and non-residential construction projects, coupled with the rising demand for concrete admixtures in the construction sector, as well as the need for lignosulfonates as oil additives in the oil and gas industry. Sodium lignosulfonate is widely used as a water-reducing and dispersing agent in concrete admixtures. The growing construction industry worldwide, especially in emerging economies, has led to an increased demand for sodium lignosulfonate to enhance concrete performance, improve workability, and reduce water usage. Another notable factor, sodium lignosulfonate is used as a dispersing agent and binder in agriculture, primarily in fertilizers and animal feed. The growth of the agricultural sector, driven by the increasing need for food production, has contributed to the demand for sodium lignosulfonate in this domain. Also, sodium lignosulfonate finds applications in oil drilling as a deflocculant and water-reducing agent. The expansion of oil and gas exploration and drilling activities has resulted in increased demand for sodium lignosulfonate in the oilfield chemicals sector. However, price volatility of raw materials and limited awareness and adoption in a few regions are anticipated to restrain the overall market growth during the period in analysis.

Global Sodium Lignosulfonate Market – Overview

Sodium Lignosulfonate, a water-reducing additive in concrete mixtures, is a water-soluble and versatile polymer electrolyte with the chemical formula C₂₀H₂₄Na₂O₁₀S₂. Its unique properties enable the efficient dispersion of biological slime, oxidizing phosphate scale, and iron (Fe) scale, while also forming stable complexes with zinc and calcium ions. Production methods involve ion exchange and pulping with sodium carbonate or sodium hydroxide. With low air content and high water-reducing rates, this chemical exhibit adaptability to various cement types, making it an ideal choice for construction projects, including dams, buildings, and highways. It finds extensive application in the construction sector for residential and non-residential structures. Additionally, it serves as a plasticizer, dust suppressant, gypsum plasterboard, animal feed binder, and oil well additive. Sodium Lignosulfonate stands as a multifunctional solution catering to diverse industries.

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Impact of COVID-19 on Global Sodium Lignosulfonate Market

COVID-19 pandemic had a mixed impact on the global sodium lignosulfonate market. During the initial phases, lockdowns and restrictions on construction activities led to a temporary decline in demand from the construction sector. However, the market found some resilience due to its applications in essential sectors like agriculture and animal feed. The increasing demand for disinfectants during the pandemic also boosted sodium lignosulfonate usage in the production of cleaning agents. Overall, while certain segments faced challenges, the market's diverse applications and adaptability to changing demands helped mitigate the adverse effects, enabling a gradual recovery as economic activities resumed.

Global Sodium Lignosulfonate Market – By Application

By application, the global sodium lignosulfonate market is divided into Animal Feed Binder, Concrete Admixture, Oil Well Additives, Agricultural Chemicals, and Lead Batteries segments. The concrete admixture segment is expected to hold the highest market share during the forecast period by application. Concrete admixtures play a vital role in the construction industry, enhancing concrete performance and workability. Sodium lignosulfonate's effectiveness as a water-reducing agent makes it sought-after in construction projects worldwide. With a growing construction industry and infrastructure development, the demand for concrete admixtures, including sodium lignosulfonate, is on the rise. Its versatility allows for use in various concrete formulations, compatible with different cement types. Also, sodium lignosulfonate's cost-effectiveness makes it an appealing choice for construction companies aiming to enhance concrete quality while optimizing costs. As a result, it remains a significant contributor to the global sodium lignosulfonate market.

Competitive Landscape

Major players operating in the global sodium lignosulfonate market include Material Technology, Abelin Polymers, Sappi, Nippon Paper Industries Co. Ltd., Borregaard LignoTech, Cardinal Chemicals, Liaocheng Jinhui Chemical, Domsjo Fabriker, Tembec, Burgo Group, and Shenyang Xingzhenghe Chemical. To further enhance their market share, these companies employ various strategies, including mergers and acquisitions, partnerships, joint ventures, license agreements, and new product launches.

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Zinc Dust Market: Driving Growth through Increasing Need for Corrosion Protection

Market Overview: The global Zinc Dust market is estimated to be valued at US$1,479.7 million in 2021 and is expected to reach US$ Mn by 2022 with a CAGR of 3.7%  during the forecast period of 2023-2030, according to a report published by Coherent Market Insights. Zinc dust is a fine powdered form of zinc, widely used in various industries for its superior anti-corrosive properties. With the increasing need for effective corrosion protection in applications such as coatings, paints, rubber, and chemical products, the Zinc Dust market is expected to witness significant growth. Market Key Trends: One key trend in the Zinc Dust market is the growing demand from the automotive industry. Zinc dust is extensively used in the automotive sector for cathodic protection, mainly in the production of anti-corrosive coatings for vehicle parts and structures. The rising demand for lightweight vehicles and the need to enhance the durability and longevity of automotive components are driving the adoption of zinc dust. For instance, zinc dust is used in the manufacturing of galvanized steel, which is widely used in automotive body panels. This trend is expected to propel the market growth of Zinc Dust during the forecast period. Porter's Analysis: - Threat of New Entrants: The entry barriers for new players in the Global Zinc Dust Market are moderate. Established players have strong distribution networks and brand recognition, making it challenging for new entrants to gain market share. Additionally, the capital-intensive nature of zinc dust manufacturing processes further limits the entry of new players. - Bargaining Power of Buyers: Buyers in the Zinc Dust market have moderate bargaining power due to the presence of numerous suppliers in the market. However, the critical anti-corrosion properties of zinc dust make it an essential component for various industries, giving buyers limited power to negotiate prices. - Bargaining Power of Suppliers: Suppliers of zinc dust have moderate bargaining power due to the availability of alternative sources of zinc. However, the industry's concentration is relatively high, with a few key market players dominating the market, which can influence the supply chain dynamics. - Threat of New Substitutes: The threat of new substitutes in the Zinc Dust market is low. Zinc dust has unique anti-corrosive properties that are difficult to replicate with alternative materials. Therefore, the demand for zinc dust is expected to remain stable despite the availability of substitute products. - Competitive Rivalry: The competitive rivalry in the Zinc Dust market is intense. Key players are actively engaged in research and development activities to develop innovative products and gain a competitive edge. Market players are also focusing on strategic collaborations and mergers to expand their market presence and enhance their product offerings. Key Takeaways: - The global Zinc Dust market is expected to witness high growth, exhibiting a CAGR of 3.7%  over the forecast period, driven by the increasing need for corrosion protection. Zinc dust's excellent anti-corrosion properties make it a preferred choice in industries such as coatings, paints, rubber, and chemicals. - Asia Pacific is the fastest-growing and dominating region in the Zinc Dust market. The region's rapid industrialization, booming construction sector, and increasing automotive production are contributing to the high demand for zinc dust in this region.

New Comprehensive Report on Zinc Dust  Market is Thriving Worldwide with Prominent Players like  Votorantim Group, Jiashanbaiwei, Transpek-Silox Industry

Zinc dust is essentially nothing else but minute physical particles of zinc. It can be used for a variety of purposes, most of them are those where zinc is used.Hence it is zinc dust is used in cheap paints and colours to avoid corrosion and rusting of the material on which it is put.

The Zinc Dust  Market Report incorporates an in-depth assessment of the competitive environment, product market size, product benchmarking, market trends, product development, financial analysis, strategic analysis, and more to measure market impact and potential opportunities. The report also analyzes data collected from industry analysts and market participants across key points in the industry value chain, providing a complete qualitative and quantitative assessment.

Key Players Mentioned: Umicore, Votorantim Group, Numinor, Hanchang, Transpek-Silox Industry, Mepco, TOHO ZINC, HakusuiTech, Pars Zinc Dust, Jiangsu Kecheng, Jiashanbaiwei, Jiangsu Smelting, Yunan Luoping, Shijiazhuang Xinri Zinc, Jiangsu Shenlong Zinc, Shandong Xingyuan Zinc, Jiangsu Shuangsheng Request Sample @t: https://introspectivemarketresearch.com/request-samples.php?_id=&_sid=421

 Informative data about Zinc Dust  Market has been published. It covers different aspects of businesses and to boost the performance of the companies. To present data effectively, it uses numerous graphical presentation techniques such as, charts, graphs, pictures and tables. It focuses on recent developments from top level industries, which helps to provide the guidelines for growth of the industries.

Product Segment Analysis: Chemical Grade, Paint Grade

Application Segment Analysis: Chemical Industry, Paint Industry, Pharmaceutical Industry, Other

Regional Segment Analysis: North America, Europe, Asia Pacific, Central and South America and Middle East and Africa

The study wanted to focus on leading manufacturers, competitive environments, and SWOT analysis for the Zinc Dust  industry. In addition to researching geographic regions, the report focused on the main trends and segments that drive or hinder the growth of the industry. The researchers also focused on personal growth trends in addition to their contribution to the overall market. Ask For Discount @t: https://introspectivemarketresearch.com/ask-for-discount.php?_id=&_sid=421

 The report includes an executive summary, world economic outlook, and overview section that provides a consistent analysis of the Zinc Dust  Market. In addition, reports in the market overview section describe SWOT and PESTLE analysis to provide a thorough analysis of the market. The overview section details Porters' Five Force analysis, which helps to reveal possible scenarios in the market by disclosing competitive scenarios related to the market.

Reasons to Purchase this Market Report: • Market forecast analysis through recent trends and SWOT analysis • Zinc Dust  Market Dynamics Scenarios with Market Growth Opportunities over the Next Year • Market segmentation analysis, including qualitative and quantitative studies that include economic and non-economic impacts • Zinc Dust  Market Regional and country-level analysis that integrates demand and supply forces that impact the growth of the market. • Competitive environment related to the market share for key players, along with new projects and strategies that players have adopted over the past five years Inquiry @t: https://introspectivemarketresearch.com/Enquiry-before-buying.php?_id=&_sid=421

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The second life of aluminium packaging

We consume products wrapped in aluminum almost every day. This waste most often ends up in the incinerator because it does not fit into the traditional recycling channels. The Liège Metallurgical Research Center (CRM)[1] has found a way to give a second life to small household and industrial aluminum.

Coffee capsules, crisps’, biscuits’, chocolate or coffee wrappers, lasagna trays, medicine packaging, aerosols, hair coloring tubes, wine bottle rims, milk product jar lids ..., the list of everyday consumer products wrapped in aluminum is long.

This waste may be light but, on average, the Belgian throws almost two kilos each year in the dust bin.

And if they are found back in nature, their natural degradation is very slow: around 200 years for a can. If this packaging does not end up in the incinerator, it can end up in export circuits with industrial aluminum waste such as offcuts and shavings left over from the manufacturing process, motors and window frames and are therefore not recovered at their fair value with us (aluminum is currently worth 1800 euros per ton). It is not easy to give them a second life: they are very thin and polluted by glues, varnishes, paints, lacquers, plastic films, oils, foams or rubber.

"We need to make better use of these products and, in a conventional recycling circuit, it is very complicated. This requires special equipment to treat organic materials and, above all, the packaging aluminum burns very easily if we do not take precautions, ”explains Christian Marique, technical director at the Liège Metallurgical Research Center. "It must therefore be conditioned beforehand, mixed with other denser products, be prepared, fragmented and then compacted to be processed more easily. This is what we have put in place."

Metallurgy in reverse

Since three years, a CRM team has been working on designing a process for recycling household and industrial aluminum. This initiative is part of the "Reverse metallurgy" project, funded by the Walloon Regional Government since 2015. "Aluminum was selected as a key product by Reverse metallurgy. A secondary aluminum sector already exists , in which we recover a series of products which are melted then reformatted. When we looked in more detail at the potential of recycling, we wanted to go much further. " The technique from the Liège metallurgy industry collective research centre, doubly patented at European level, is now perfected. It also separates the aluminum from the coffee capsules from the grounds they contain and also allows domestic and industrial waste to be mixed in a single recycling process.

Outside the CRM premises, containers are filled with this little everyday waste.

"We needed raw materials. As early as 2016, the CRM asked its staff [2] to collect this household waste of small aluminum. We gave reusable bags to fetch them as well as a magnet, in order to be able to distinguish them from steel waste (such as certain capsules or boxes), which themselves are magnetic, ” says the technical director, who is also the head of the aluminum recycling project. The recycling line is on a pilot scale but the CRM, in collaboration with the Liège-based company CMI[3], has designed an economically profitable factory project in which 20,000 tons of aluminum waste can be recycled per year. The plan foresees a doubling of the volume in a second stage. The project does not only have an ecological impact (in addition to the reprocessing aspect, the recycling of aluminum consumes only 5% of the energy necessary for the primary production sector), it also aims to create a new foundry activity in Wallonia, focused on recycling.

The miniaturized line of the CRM can process between 300 and 400 kilos of waste per day. "They are crushed, fragmented; certain organic components are released and then the waste is compacted into briquettes, with a density comparable to the same volume of pure aluminum, in order to make them easily handled. We knowingly compose them with certain types of waste placed together because we are targeting a particular chemistry ", explains, with a supporting demonstration, Adrien Nélis, engineer and head of the technical part of the aluminum project.

Almost pure recycled aluminum

Then follows the stage when they are put in the oven. The oven is heated to 800 °. After 30 to 35 minutes, the recycled and molten aluminum flows, silvery and shiny, into the mold. Half a day is necessary to be able to handle a cooled ingot. After lithification, samples are presented for chemical analysis. "We can adapt the recycling recipe according to the sectors targeted as customers. We can indeed find iron or zinc in our recycled aluminum, metals that affect the properties of materials, their applications and their quality. Packaging aluminum is quite pure because it does not need other elements to provide mechanical properties, unlike that used to make frames or within the automotive and aeronautical industry. So, in the recycled version, we get very good aluminum. "

Who are the potential customers of recycled aluminum? "We have developed a cooking recipe which makes it possible to target special markets: foundries, the steel industry, a large consumer of aluminum to make calmed steels[4], the cosmetics, pharmaceutical and agrifood industries", details Christian Marique. "And we have other ideas, which are still in an exploratory state. With additive manufacturing[5] which is developing, but what still is very expensive today are the powders of the metals it uses. We could use our aluminum as a metallic powder, after an automation effort. It would be less expensive. New outlets are there. "

There remains a problem to be solved if we want to launch an industrial recycling sector: the collection of this type of waste upstream. "The public authorities will have to organize additional sorting from individuals and collection. If manufacturers are not sure of having all the necessary material, they will not invest in this project", concludes Christian Marique.

Source

Isabelle Lemaire, La seconde vie des emballages en aluminium, in: La Libre Belgique, 1-3-2021 https://stories.lalibre.be/inspire/numero98/index.html

[1] CRM Group is a collective research centre having as Core Members two major worldwide steel companies (ArcelorMittal and Tata Steel) and as Associated Members numerous companies producing non-ferrous metals, providing services to the steel industry or promoting the use of metals. [2] 265 workers, Editor's note [3] Cockerill Maintenance & Ingénierie (CMI), nowadays John Cockerill [4] deoxidized, Editor's note [5] by 3D printing, to put it simply, Editor's note

Global Zinc Dust Market 2017 Study by Production Process, Key Manufacturers, Pricing, Applications, Demand

Qyresearchreports include new market research report Global Zinc Dust Market 2017 Industry Trend and Forecast 2022 to its huge collection of research reports.

The global Zinc Dust market is exhibiting steady growth amidst a dynamic business environment. The report is compiled to identify key growth avenues of the global Zinc Dust market and challenges that pose threat to its expansion goals. It also presents a detailed assessment of the growth drivers, which will exert a positive influence on the market between 2017 and 2022. Compiled with the intent of providing stakeholders with a better perspective of the global Zinc Dust market, the report thus includes exhaustive information sourced via proven technologies. It comprises decisive data to present insights into the factors influencing the prevailing demand and supply trends.

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Given the dynamic consumer preferences, it is imperative for enterprise to strategize better. In light of the same, the report provides valuable recommendations aimed at enabling companies determine winning strategies. These recommendations are based on information gathered from trusted industrial sources and current market outlook. Expert opinions are referred to in this regard. Besides this, the report discusses in detail the vulnerabilities of the Zinc Dust market to the most recent domestic and international policies. To conduct a meticulous study, the global Zinc Dust market has been segmented in terms of various parameters. Factors impacting the market’s trajectory across these segments are studied individually for a comprehensive overview.

In the last few chapters, the report presents a thorough analysis of the global Zinc Dust market’s vendor landscape. Besides calculating share held by the leading companies, the report also includes detailed profiles of some of the most prominent companies operating in the Zinc Dust market. It also conducts SWOT analysis, to gauge their strength and weaknesses. The analysis also presents insights into opportunities and threats that these companies may face over the forecast period.

Table of Contents

1 Zinc Dust Market Overview1 1.1 Product Overview and Scope of Zinc Dust1 1.2 Zinc Dust Segment by Type2 1.2.1 Global Production Market Share of Zinc Dust by Type in 20162 1.2.2 Chemical Grade3 1.2.3 Paint Grade3 1.3 Zinc Dust Segment by Application3 1.3.1 Zinc Dust Sales Market Share by Application in 20163 1.3.2 Chemical Industry4 1.3.3 Paint Industry5 1.3.4 Pharmaceutical Industry6 1.4 Global Zinc Dust Market by Regions (2012-2023)7 1.4.1 Global Zinc Dust Market Size Comparison by Regions in 20167 1.4.2 North America Zinc Dust Status and Prospect (2012-2023)7 1.4.3 China Zinc Dust Status and Prospect (2012-2023)8 1.4.4 Europe Zinc Dust Status and Prospect (2012-2023)9 1.4.5 Japan Zinc Dust Status and Prospect (2012-2023)10 1.5 Global Zinc Dust Market Size (2012-2023)11 1.5.1 Global Zinc Dust Consumption Value (Million USD) Status and Outlook (2012-2023)11 1.5.2 Global Zinc Dust Capacity, Production (K MT) Status Outlook (2012-2023)12

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2 Global Zinc Dust Market Competition by Manufacturers14 2.1 Global Zinc Dust Capacity, Production and Share by Manufacturers (2016-2017)14 2.1.1 Global Zinc Dust Capacity (K MT) and Share (%) by Manufacturers (2016-2017)14 2.1.2 Global Zinc Dust Production (K MT) and Share (%) by Manufacturers (2016-2017)16 2.2 Global Zinc Dust Revenue (Million USD) and Share (%) by Manufacturers (2016-2017)18 2.3 Global Zinc Dust Average Price (USD/MT) by Manufacturers (2016-2017)20 2.4 Manufacturers Zinc Dust Manufacturing Plants Distribution, Establishment Date22 2.5 Zinc Dust Market Competitive Situation and Trends24 2.5.1 Zinc Dust Market Concentration Rate24 2.5.2 Zinc Dust Market Share (%) of Top 3 and Top 5 Manufacturers25 2.5.3 Industry News Analysis of Zinc Dust25 3 Global Zinc Dust Production by Regions (2012-2017)27 3.1 Global Zinc Dust Capacity (K MT) and Market Share (%) by Regions (2012-2017)27 3.2 Global Zinc Dust Production (K MT) and Market Share (%) by Regions (2012-2017)28 3.3 Global Zinc Dust Revenue and Market Share (%) by Regions (2012-2017)29 3.4 Global Zinc Dust Capacity, Production (K MT), Revenue (Million USD), Price (USD/MT) and Gross Margin (%) (2012-2017)31 3.5 North America Zinc Dust Production (2012-2017)32 3.5.1 North America Zinc Dust Production (K MT) and Growth Rate (%) (2012-2017)32 3.5.2 North America Zinc Dust Capacity, Production (K MT), Revenue (Million USD), Price (USD/MT) and Gross Margin (%) (2012-2017)32 3.6 Europe Zinc Dust Production (2012-2017)33 3.6.1 Europe Zinc Dust Production (K MT) and Growth Rate (%) (2012-2017)33 3.6.2 Europe Zinc Dust Capacity, Production (K MT), Revenue (Million USD), Price (USD/MT) and Gross Margin (%) (2012-2017)34 3.7 China Zinc Dust Production (2012-2017)35 3.7.1 China Zinc Dust Production (K MT) and Growth Rate (%) (2012-2017)35 3.7.2 China Zinc Dust Capacity, Production (K MT), Revenue (Million USD), Price (USD/MT) and Gross Margin (%) (2012-2017)35 3.8 Japan Zinc Dust Production (2012-2017)36 3.8.1 Japan Zinc Dust Production (K MT) and Growth Rate (%) (2012-2017)36 3.8.2 Japan Zinc Dust Capacity, Production (K MT), Revenue (Million USD), Price (USD/MT) and Gross Margin (%) (2012-2017)37 4 Global Zinc Dust Consumption (K MT) by Regions (2012-2017)38 4.1 Global Zinc Dust Consumption (K MT) by Regions (2012-2017)38 4.2 North America Zinc Dust Consumption (K MT) (2012-2017)39 4.3 Europe Zinc Dust Consumption (K MT) (2012-2017)40 4.4 China Zinc Dust Consumption (K MT) (2012-2017)41 4.5 Japan Zinc Dust Consumption (K MT) (2012-2017)42 4.6 Rest of Asia Zinc Dust Consumption (K MT) (2012-2017)43 4.7 Middle East and Africa Zinc Dust Consumption (K MT) (2012-2017)44 5 Global Zinc Dust Production, Revenue, Price Trend by Types45 5.1 Global Zinc Dust Production (K MT) and Market Share (%) by Types (2012-2017)45 5.2 Global Zinc Dust Revenue (Million USD) and Market Share (%) by Types (2012-2017)46 5.3 Global Zinc Dust Price (USD/MT) by Type (2012-2017)46

List of Tables and Figures

Figure Typical Form of Zinc Dust1 Table Product Specifications of Zinc Dust1 Table Classification of Zinc Dust2 Figure Global Production Market Share of Zinc Dust by Type in 20162 Figure Product Picture of Chemical Grade3 Figure Product Picture of Paint Grade3 Table Application of Zinc Dust3 Figure Zinc Dust Sales Market Share by Application in 20164 Figure Chemical Industry Examples4 Table Major Consumers of Chemical Industry4 Figure Paint Industry Examples5 Table Major Consumers of Paint Industry5 Figure Pharmaceutical Industry Examples6

Liquid Waste Management Market Size, Growth, Share, Global Top Companies, 2021 Industry Trends, Demand, Business Opportunities and Forecast to 2027

Market Synopsis

According to MRFR the analysis, the Global Liquid Waste Management Market was valued at more than USD 90.12 billion in 2018 and is expected to reach over USD 117.79 Billion by the end of 2025 at a CAGR of 3.8%.

The process of proper handling, disposing and treating of liquid waste is termed as liquid waste management. The demand for liquid waste management services is growing and is contributed by environmental regulations, waste-to-energy initiatives, and landfill diversion. Moreover, scarcity and demand for clean water is another factor driving the growth of the global market. Furthermore, the increasing concern over wastewater discharge from the industrial sector is also expected to position the growth of the industry.

 Regulatory Analysis

The regulation set by different regulatory bodies for Liquid Waste Management are as follows: The American Society for Testing and Materials – ASTM-D5495, for ‘sampling with a composite liquid waste sampler’; the European Union Standards, the Sewage Sludge Directive – Directive 86/278/EEC for, ‘use of sewage sludge in agriculture’; the Directive on the incineration of waste – Directive 2000/76/EC, for ‘setting emission limit for waste incineration plants within the EU’; Environmental Protection Agency EPA-K002/4/5 for ‘wastewater treatment sludge from the production of chrome and zinc pigments’.

 Segmentation

By Application

 Sullage: Also known as      greywater, and is referred to wastewater generated from kitchen, house      washing, laundry, and bathroom falls under this category and contains      pathogens.

 Black Water: Wastewater drained      out from the toilet is known as black water, it contains harmful      pathogens owing to which it needs to be treated before disposal.

 Storm Water: Stagnated and      runoff water accumulated after heavy rainfall falls under this category,      this can lead to water-borne diseases.

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 By Disposal Methods

Sedimentation & Dewatering     held the largest share of the liquid waste management market as the     process is cost-effective and easy to perform. It is used to remove solid     waste from non-hazardous liquid waste, either by filtering water from a     huge bag or sediment basins, usually the solid waste left is dumped in     landfills.

Incineration: Burning of     hazardous wastes such as acids, slag, oil, scrap materials, rock tailings,     and other chemicals, although being the best way for liquid waste     disposal, the use of method is limited owing to the high cost of     incinerators.

Composting: Removal of organic     waste such as vegetable and fruit debris, bones and paper from liquid     waste and turning them into organic fertilizers for agriculture purposes.

Solidification: The treatment of     water waste with fly ash, lime dust and sawdust to solidify them, for easy     burying of solid waste.

Root Zone: Mainly used for the     treatment of water waste release from household, with the help of     sedimentation tank, which filter through different processes. The filtered     water can be released back to the natural sources or can be recycled in     the water treatment plants.

By Region

North America: Market growth is     driven by growth of the industrial sector and increasing demand for clean     water.

Europe: Stern government regulations     for effluent water quality.

Asia-Pacific: The fastest-growing     regional market.

Latin America: Increasing     Investment in sewage Infrastructure and water treatment plants.

Middle East & Africa:     Increasing demand for water treatment systems over the deficiency of clean     water.

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MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by products, services, technologies, applications, end users, and market players for global, regional, and country level market segments, enable our clients to see more, know more, and do more, which help to answer all their most important questions.

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Thallium Market - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast 2018 – 2026

Thallium is a radioactive element. It is soft silvery-white metal that occurs naturally in small amounts in pyrite and other ores such as copper, lead, and zinc. Thallium metal and its compounds are highly toxic materials and are strictly controlled to prevent harm to humans and the environment. Thallium and its compounds can be absorbed into the human body by skin contact, ingestion, or inhalation of dust or fumes. Leading sources of thallium released into the environment are coal-burning power plants and smelters of copper, lead, and zinc ores. Ore processing sites and discharges from electronics, drugs, and glass factories are the major sources of thallium in drinking water.

Global Environmental Protection Agency has set a maximum contaminant level (two parts per billion) of thallium in water. Thallium is obtained commercially as a byproduct in the roasting of copper, lead, and zinc ores or is collected from flue dust in just a few countries. Global production of thallium was estimated to be less than 10 tons in 2018. Thallium materials are costly for the specialized uses such infrared detection and transmission purpose in optics.

Thallium exists primarily in association with potassium minerals in clays, granites, and soils. It is not generally considered to be commercially recoverable from potassium minerals forms. However, other materials and formulations can substitute for thallium in gamma radiation detection equipment. Nonpoisonous substitutes, such as tungsten compounds, are being marketed as substitutes for thallium in high-density liquids for sink-float separation of minerals.

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Thallium Market: Segmentation

The global thallium market can be segmented based on type, application, and region. In terms of type, the thallium market can be classified into granular, rod, and others. The rod segment is projected to expand at a rapid pace during the forecast period. Rod type thallium occupies less volume. Its packaging is also easier than that of the granular type thallium and also it is easy for transportation. This is the major factor which is expected to drive the demand for thallium market during the forecast period.

Based on application, the global thallium market can be divided into optics, electronics, and chemical. Under the optics segment, thallium is used in lenses, prisms, and windows for infrared detection and transmission equipment. Thallium-arsenic-selenium crystal filters are used for light diffraction in acoustic optical measuring devices. Thallium is used in glass to increase its refractive index and density. Under the Electronics segment, sodium iodide crystal doped with thallium is used as activator in gamma radiation detection equipment. Thallium is alloying component with mercury used for low-temperature measurement. Thallium-barium-calcium-copper oxide high-temperature superconductors (HTS) are used in filters for wireless communications. Radioactive thallium is used for medical purposes in cardiovascular imaging. Thallium is also used as catalyst for organic compound synthesis and sink-float separation of minerals.

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Thallium Market: Regional Outlook

In terms of region, the global thallium market can be segmented into Asia Pacific, Europe, Latin America, North America, and Middle East & Africa. Asia Pacific is expected to be the leading region of the global thallium market during the forecast period. Kazakhstan and Taiwan are major producers of thallium, while India and China are the key consumers of thallium products such as optic cables & superconductors, transistors, and thermocouples. Due to which Asia Pacific is expected to remain dominant region during the forecast period.

Thallium Market: Key Players

The global thallium market is fragmented. Large numbers of companies operate at the global and regional level. Major companies include Kazzinc, China Minmetals Non-Ferrous Metals, Umicore, JX Nippon Mining & Metals Corp, Sumitomo Metal Mining, ESPI Metals, Titan Group, Eastman, Strem Chemicals.

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This study by TMR is all-encompassing framework of the dynamics of the market. It mainly comprises critical assessment of consumers' or customers' journeys, current and emerging avenues, and strategic framework to enable CXOs take effective decisions.

Our key underpinning is the 4-Quadrant Framework EIRS that offers detailed visualization of four elements:

Customer Experience Maps

Insights and Tools based on data-driven research

Actionable Results to meet all the business priorities

Strategic Frameworks to boost the growth journey

The study strives to evaluate the current and future growth prospects, untapped avenues, factors shaping their revenue potential, and demand and consumption patterns in the global market by breaking it into region-wise assessment.

The following regional segments are covered comprehensively:

North America

Asia Pacific

Europe

Latin America

The Middle East and Africa

Companies in the Thallium market have increasingly shifted gears with wide application of digital technology across the continuum, from raw material sourcing to manufacturing to generation of final output, to warehousing to final distribution operations. Among the various affects, the market is witnessing new growth economics due to thinning of line between specialty and commodity businesses that are associated with the larger ecosystem. At the same time, new growth parameters are being vigorously being debated as industry stakeholders put greater emphasis on the circular economy processes.

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Sodium Hydrosulfite Market Global Size, Share, Industry Segments, Sales, Consumption, Landscape, Company Profiles, Demand and Forecast to 2027

Sodium Hydrosulfite Market Overview

The Global Sodium Hydrosulfite Market is projected to be valued at over USD 1.5 billion by the end of 2024 at a CAGR of over 4% during the assessment period. The prominent factor driving the market growth is the widening scope of application of the product in the pulp & paper and textile industries. The use of sodium hydrosulfite in pulp bleaching enhances the brightness of pulp with efficient energy input and economical use of hydrosulfite. In addition, sodium hydrosulfite finds a wide range of applications in the textile industry for bleaching of both natural and synthetic fibers. The significant growth of the textile industry in Asia-Pacific is likely to boost the demand for sodium hydrosulfite in the coming years.

 Competitive Analysis

The leading players in the global sodium hydrosulfite market are HELM AG (Germany), BASF SE (Germany), Chemtrade Logistics Inc (Canada), HANSOL CHEMICAL (South Korea), Maoming Guangdi Chemical Co., Ltd (China), L. Brügge­mann GmbH & Co. KG (Germany), Shandong Jinhe Industrial Group Co., Ltd (China), Transpek-Silox Pvt Ltd (India), Royce Global (US), and AZ Chemicals, Inc (Canada).  

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 Market Segmentation

The global sodium hydrosulfite market has been categorized on the basis of form, production process, and end-use industry.

By form, the global market has been divided into powder and liquid. The powder form segment accounted for the largest market share in 2018 and is estimated to be the fastest growing segment during the forecast period. The powdered form is mainly used in the pulp & paper and textile industry for bleaching purposes. Moreover, it finds application in the personal care & cosmetics industry for the formulation of various personal care products. The healthy growth of the industry globally is expected to propel the growth of the segment in the years to follow.

On the basis of production process, the global sodium hydrosulfite market has been classified into zinc dust process, sodium formate process, and others. The zinc dust process segment held the largest share of the market in 2018 and is expected to be the leading segment during the review period. However, the use of sodium formate process in the production of sodium hydrosulfite is expected to increase in the coming years as the end product produced by the process does not contain traces of zinc, iron, or mercury. This makes the product safe for use due to the reduced content of toxic elements.

Based on end-use industry, the global sodium hydrosulfite market has been categorized into pulp & paper, textile, food & beverage, personal care & cosmetics, leather, water treatment, and others. The key factors driving the growth of the pulp & paper segment is the growing adoption of the product in the pulp & paper industry, as a bleaching agent. The surging demand for the product to increase the whiteness of paper of the recycled fiber, which is used as a raw material for producing high-quality papers, is expected to favor the market growth.

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Liquid Waste Management Market Forecast to 2027 Available in New Report

Market Synopsis

According to MRFR the analysis, the Global Liquid Waste Management Market was valued at more than USD 90.12 billion in 2018 and is expected to reach over USD 117.79 Billion by the end of 2025 at a CAGR of 3.8%.

The process of proper handling, disposing and treating of liquid waste is termed as liquid waste management. The demand for liquid waste management services is growing and is contributed by environmental regulations, waste-to-energy initiatives, and landfill diversion. Moreover, scarcity and demand for clean water is another factor driving the growth of the global Liquid Waste Management market. Furthermore, the increasing concern over wastewater discharge from the industrial sector is also expected to position the growth of the industry.

Regulatory Analysis

The regulation set by different regulatory bodies for liquid waste management are as follows: The American Society for Testing and Materials – ASTM-D5495, for ‘sampling with a composite liquid waste sampler’; the European Union Standards, the Sewage Sludge Directive – Directive 86/278/EEC for, ‘use of sewage sludge in agriculture’; the Directive on the incineration of waste – Directive 2000/76/EC, for ‘setting emission limit for waste incineration plants within the EU’; Environmental Protection Agency EPA-K002/4/5 for ‘wastewater treatment sludge from the production of chrome and zinc pigments’.

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SEGMENTATION

By Application

Sewage: The segment held the largest market share in 2018, the key factor driving the growth of the segment is the rapidly growing population, generating a significant amount of waste on regular basis. According to the Central Public Health Environmental & Engineering Organization (CPHEEO), an individualconsumes 135 liters of water every day.

Sullage: Also known as greywater, and is referred to wastewater generated from kitchen, house washing, laundry, and bathroom falls under this category and contains pathogens.

Black Water: Wastewater drained out from the toilet is known as black water, it contains harmful pathogens owing to which it needs to be treated before disposal.

Storm Water: Stagnated and runoff water accumulated after heavy rainfall falls under this category, this can lead to water-borne diseases.

Trade Waste: The waste generated from non-residential areas is referred to as trade waste, this includes both industrial as well as waste produced from commercial buildings.

Hazardous Liquid Waste: The waste that consists of toxic substance and is hazardous to public health and environment is referred as hazardous liquid waste.

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By Disposal Methods

Sedimentation & Dewatering held the largest share of the liquid waste management market as the process is cost-effective and easy to perform. It is used to remove solid waste from non-hazardous liquid waste, either by filtering water from a huge bag or sediment basins, usually the solid waste left is dumped in landfills.

Incineration: Burning of hazardous wastes such as acids, slag, oil, scrap materials, rock tailings, and other chemicals, although being the best way for liquid waste disposal, the use of method is limited owing to the high cost of incinerators.

Composting: Removal of organic waste such as vegetable and fruit debris, bones and paper from liquid waste and turning them into organic fertilizers for agriculture purposes.

Solidification: The treatment of water waste with fly ash, lime dust and sawdust to solidify them, for easy burying of solid waste.

Root Zone: Mainly used for the treatment of water waste release from household, with the help of sedimentation tank, which filter through different processes. The filtered water can be released back to the natural sources or can be recycled in the water treatment plants.

By Region

North America: Market growth is driven by growth of the industrial sector and increasing demand for clean water.

Europe: Stern government regulations for effluent water quality.

Asia-Pacific: The fastest-growing regional market.

Latin America: Increasing Investment in sewage Infrastructure and water treatment plants.

Middle East & Africa: Increasing demand for water treatment systems over the deficiency of clean water.

Global Secondary Zinc Sales Market Report 2021

The global Secondary Zinc market is segmented by company, region (country), by Type, and by Application. Players, stakeholders, and other participants in the global Secondary Zinc market will be able to gain the upper hand as they use the report as a powerful resource. The segmental analysis focuses on sales, revenue and forecast by region (country), by Type and by Application for the period 2016-2027.

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Segment by Type

Residue and Drosses

Whole Products

Steel Filter Dust

Segment by Application

Galvanized Coil

Galvanized Pipe

Rolls & Extruded Products

Pigments & Other Compounds

Others

The Secondary Zinc market is analysed and market size information is provided by regions (countries). Segment by Application, the Secondary Zinc market is segmented into North America, Europe, China, Japan, Southeast Asia, India and Other Regions.

By Company

American Zinc Recycling Corp.

KOREA ZINC

Moxba

Recyclex

Grupo ReciclaBR

Zinc National

HANWA Co., Ltd.

International Zinc Association

ZIMETSA

Boliden Group

Imperial Group

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Table of content

1 Secondary Zinc Market Overview 1.1 Secondary Zinc Product Scope 1.2 Secondary Zinc Segment by Type 1.2.1 Global Secondary Zinc Sales by Type (2016 & 2021 & 2027) 1.2.2 Residue and Drosses 1.2.3 Whole Products 1.2.4 Steel Filter Dust 1.3 Secondary Zinc Segment by Application 1.3.1 Global Secondary Zinc Sales Comparison by Application (2016 & 2021 & 2027) 1.3.2 Galvanized Coil 1.3.3 Galvanized Pipe 1.3.4 Rolls & Extruded Products 1.3.5 Pigments & Other Compounds 1.3.6 Others 1.4 Secondary Zinc Market Estimates and Forecasts (2016-2027) 1.4.1 Global Secondary Zinc Market Size in Value Growth Rate (2016-2027) 1.4.2 Global Secondary Zinc Market Size in Volume Growth Rate (2016-2027) 1.4.3 Global Secondary Zinc Price Trends (2016-2027) 2 Secondary Zinc Estimates and Forecasts by Region 2.1 Global Secondary Zinc Market Size by Region: 2016 VS 2021 VS 2027 2.2 Global Secondary Zinc Retrospective Market Scenario by Region (2016-2021) 2.2.1 Global Secondary Zinc Sales Market Share by Region (2016-2021) 2.2.2 Global Secondary Zinc Revenue Market Share by Region (2016-2021) 2.3 Global Secondary Zinc Market Estimates and Forecasts by Region (2022-2027) 2.3.1 Global Secondary Zinc Sales Estimates and Forecasts by Region (2022-2027) 2.3.2 Global Secondary Zinc Revenue Forecast by Region (2022-2027)

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Understanding The Physicochemical Properties Of Acacia and Linden Honey Is Important To Evaluate Adulteration Content

Honey is a natural product produced by honey bees and is known for its food & medicinal benefits. Over the years, it has been used as a nutritional supplement and a natural remedy to treat various diseases. But in recent times, adulteration of honey has become a major issue all because of the increase in its composition.  

Acacia and linden honey are the most common varieties used worldwide. But are these most sought-after honey varieties 100% pure? Commercially accessible honey varies in quality as indicated by different factors like environmental diversity, sort of vegetation of the encompassing locale, geological attributes, processing, botanical inventory period, storage, and packaging conditions, which can compromise with the quality and nature of the result.

To get information about fraud identification and adulteration content, several studies have been carried out to understand the physical and chemical properties that pose a direct impact on the quality of a product and its shelf life. 

Honey is described as a semi-fluid food ingredient, involving an unpredictable combination of carbohydrates, particularly the monosaccharides glucose and fructose; and different sugars, proteins, lactones, wax, colors, nutrients, amino acids, minerals, natural acids, and dust. Its chemical composition changes as indicated by the honey bee species, climate conditions, sort of soil, the physiological condition of the state, and nectar source. Its dietary quality, which happens because of the presence of minerals and nutrients, its antioxidant, antibacterial, anti-inflammatory properties, and high energy content makes it a superfood. 

The physicochemical analysis includes studying moisture content, sucrose, minerals, acidity, ash, color, and hydroxymethylfurfural (HMF) content in the honey to check the quality of honey. These studies significantly contributed to evaluating the quality of honey and proffer a modification to the physicochemical parameters. 

Key Methods Used for Analysis – 

(1) Moisture Content:

Water content is one of honey’s most significant attributes as it impacts its consistency, explicit gravity, development, crystallization, flavor, conservation, the time span of usability, and acceptability. It relies upon a few factors like honey bee species, flower source, and nectar gathering time.

Moisture is dissected to determine the safety of the item, giving a quality measure that decides the capacity of the honey to stay stable and free of fermentation. High moisture content reduces the nutritional properties and shelf life of the honey. 

(2) The pH Level:

The pH level alludes to the hydrogen particles present in the honey solution and can impact the development of different components. The pH of nectar ranges somewhere between 3.5 and 5.5 relying upon its natural source, the pH of nectar, soil or plant association, and the grouping of various acids and minerals like calcium, sodium, potassium, and other debris constituents. Changed qualities may demonstrate fermentation or adulteration. Mandibular substances added to the nectar may likewise change the pH of honey, a process that begins with the transfer of nectar to the hive.

(3) Acidity:

Honey acidity is a result of enzyme glucose oxidase produced in the hypopharyngeal glands of bees, producing gluconic acid. This enzyme is active even during storage representing less than 0.5% of solids and however considerably affects the taste of honey.

(4) Formaldehyde Content

The formaldehyde content in honey addresses, prevalently, amino mixtures, permitting the assessment of peptide substance, protein and amino acids. This is demonstrative of the presence of nitrogen in honey and is a significant adulteration pointer. At the point when low, it can propose the presence of artificial items, while when unreasonably high it can show that the honey bees were taken care of by hydrolyzed protein. In this way, formaldehyde substance can be utilized to demonstrate the genuineness of nectar.

(5) Ash

This content is a representation of mineral contents in honey. Calcium, iron, magnesium, copper, cadmium, zinc and chloride are found in small amounts. These minerals are responsible for the color of honey and are usually found in higher concentrations in dark-colored honey. 

(6) Color

Color straightforwardly affects the cost of linden and acacia honey as it impacts buyer inclination and is of specific significance in the worldwide market. Varieties in the shade of honey are identified with its botanical beginning, mineral substance, stockpiling and item handling, climatic components during nectar flow and the temperature at which the nectar develops in the hive, the extent of fructose and glucose present, nitrogen content, and the flimsiness of fructose in an acid solution. 

(7) Viscosity

Consistency and the other physicochemical properties of nectar rely upon numerous variables, including composition and temperature. Perhaps the main variables for consistency are water content, as viscosity, by and large, reduces while water content increments. Investigations of this quality are critical, as the rheological models acquired are helpful for recognizing the rheological properties of a liquid with amounts like concentration, temperature, and pH among others. This information is fundamental for quality control and for the design of equipment and processes.

Physicochemical assessments uncover differences between authentic and adulterated honey. These basic strategies can reveal the differences and samples of foreign particles. An increase in consumption of honey has led to such adulterations which not only impact the quality of honey but our health too. Thus, it is always suggested to buy organic raw honey online from a genuine store to ensure that you are getting only the best quality products. Visit Geohoney now and give yourself a gift of purity and good health with 100% natural acacia and linden honey available at best prices. Buy your favorite honey product today!

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Advanced Battery Technologies Market Analysis, Segments, Top Key Players, Drivers and Trends by Forecast to 2025

16th February 2021 – Advanced battery technology under its expansive coverage consists of lithium-ion batteries, lithium-iron phosphate market. A lithium battery is by far the best battery in advanced battery market. Market drivers for growth of advanced battery technologies market include the benefits reaped by lithium-ion batteries in terms of energy efficacy and considerable cost-savings. Advanced batteries are one-upping on conventional batteries in powering electric vehicles owing to their longer shelf-life, compactness and energy efficacy, a potential market driver for growth of advanced battery technologies market.

Limitations in material design consideration do not reflect a robust picture and steps have to take to address these problems in order to cope up with energy specifications required in electric cars, consumer electronics, wearable and electric boats and aircrafts. Lead Acid and lithium-ion batteries will hold fort for the next ten years but advanced and post-lithium batteries will make a significant impact on the market once the underlying conditions are met. Segmentation by Large and advanced battery systems comprises lead acid batteries and Ni-Cd batteries.

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Segmentation by second-generation large and advanced battery systems comprises Ni-metal hydride batteries, Li-ion batteries and lithium polymer batteries. Segmentation by specialty large and advanced battery systems include silver-zinc secondary batteries, silver cadmium batteries, Nickel Hydrogen Secondary batteries, Ni-Zn batteries and metal air batteries. Developmental large and advanced battery technologies systems market include sodium sulfur batteries, high-temperature lithium batteries, redox and flow batteries, Nickel-Iron batteries, Calcium Metal sulphide batteries, sodium-chloride batteries and lithium sulfur batteries. Future prospects with presence in the high-growth areas represent a potentially augmented market for the advanced battery technologies. New variants of advanced batteries have been ushered in the market including nickel-metal hydride and zinc-air prototypes. Microelectronic charger technology and battery charger control technology and clean room technology have brought into focus, a new breed of batteries belonging to lithium-ion and lithium polymer jeopardizing future prospects for Nickel-Cadmium (Ni-Cd) and portable lead acid batteries.

Advanced batteries are a notch higher than traditional batteries with limited applications and a sea of opportunities exists for advanced battery technology market. With state-of-the art inventions such as lithium phosphate, sodium phosphate and sodium sulphur labeled as the new lithium-ion compositions, the current crop of lithium-ion designs are biting dust. Giant sodium sulfur batteries are being commissioned by electric utilities. 2008 and 2009 saw recessionary forces including lower gasoline prices that abruptly ceased the growth of nickel metal battery-powered Hybrid Electric vehicles (HEV’s) with Chrysler and GM throwing in the towel.

Key industry players include GS Yuasa Corp, Johnson Control Inc, LG Chem Ltd, Panasonic Corp, Samsung SDI Co Ltd and Sanyo Electric Co Ltd., ABSL power solutions Ltd and Advanced Battery Systems Inc., ALcad Ltd, all power battery Ltd, American Electric power, Antique Auto Battery, Anzode Inc, Apple Inc, Applied Power Inc, Arotech Corp, Hong Kong High Power Technology Ltd, Concorde Battery Corp, Covalent associates Inc, Magna International Inc and Atlantic Battery Co Ltd.

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Liquid Waste Management Market by Product Type, Market, Players and Regions-Forecast to 2027

Market Synopsis

According to MRFR the analysis, the Global Liquid Waste Management Market was valued at more than USD 90.12 billion in 2018 and is expected to reach over USD 117.79 Billion by the end of 2025 at a CAGR of 3.8%.

The process of proper handling, disposing and treating of liquid waste is termed as liquid waste management. The demand for liquid waste management services is growing and is contributed by environmental regulations, waste-to-energy initiatives, and landfill diversion. Moreover, scarcity and demand for clean water is another factor driving the growth of the global market. Furthermore, the increasing concern over wastewater discharge from the industrial sector is also expected to position the growth of the industry.

 Regulatory Analysis

The regulation set by different regulatory bodies for Liquid Waste Management are as follows: The American Society for Testing and Materials – ASTM-D5495, for ‘sampling with a composite liquid waste sampler’; the European Union Standards, the Sewage Sludge Directive – Directive 86/278/EEC for, ‘use of sewage sludge in agriculture’; the Directive on the incineration of waste – Directive 2000/76/EC, for ‘setting emission limit for waste incineration plants within the EU’; Environmental Protection Agency EPA-K002/4/5 for ‘wastewater treatment sludge from the production of chrome and zinc pigments’.

 Segmentation

By Application

 Sullage: Also known as      greywater, and is referred to wastewater generated from kitchen, house      washing, laundry, and bathroom falls under this category and contains pathogens.

 Black Water: Wastewater drained      out from the toilet is known as black water, it contains harmful      pathogens owing to which it needs to be treated before disposal.

 Storm Water: Stagnated and      runoff water accumulated after heavy rainfall falls under this category,      this can lead to water-borne diseases.

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 By Disposal Methods

Sedimentation & Dewatering     held the largest share of the liquid waste management market as the     process is cost-effective and easy to perform. It is used to remove solid     waste from non-hazardous liquid waste, either by filtering water from a     huge bag or sediment basins, usually the solid waste left is dumped in     landfills.

Incineration: Burning of     hazardous wastes such as acids, slag, oil, scrap materials, rock tailings,     and other chemicals, although being the best way for liquid waste     disposal, the use of method is limited owing to the high cost of     incinerators.

Composting: Removal of organic     waste such as vegetable and fruit debris, bones and paper from liquid     waste and turning them into organic fertilizers for agriculture purposes.

Solidification: The treatment of     water waste with fly ash, lime dust and sawdust to solidify them, for easy     burying of solid waste.

Root Zone: Mainly used for the     treatment of water waste release from household, with the help of     sedimentation tank, which filter through different processes. The filtered     water can be released back to the natural sources or can be recycled in     the water treatment plants.

By Region

North America: Market growth is     driven by growth of the industrial sector and increasing demand for clean     water.

Europe: Stern government     regulations for effluent water quality.

Asia-Pacific: The fastest-growing     regional market.

Latin America: Increasing     Investment in sewage Infrastructure and water treatment plants.

Middle East & Africa:     Increasing demand for water treatment systems over the deficiency of clean     water.

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At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), & Consulting Services.

MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by products, services, technologies, applications, end users, and market players for global, regional, and country level market segments, enable our clients to see more, know more, and do more, which help to answer all their most important questions.

In order to stay updated with technology and work process of the industry, MRFR often plans & conducts meet with the industry experts and industrial visits for its research analyst members.

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