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.

Zinc Stearate Sandpaper: A Revolutionary Product In The Market

Zinc Stearate Sandpaper: A Revolutionary Product In The Market

For years, sandpaper has been an essential tool in the woodworking industry. It is used for cutting, smoothing, and shaping various kinds of materials, including wood, metal, and plastic. The primary purpose of sandpaper is to remove surface defects and rough edges. However, there has been a new addition to the range of sandpapers available in the market - the zinc stearate sandpaper.Get more news about Zinc Stearate,you can vist our website!

Zinc stearate is a compound derived from stearic acid and zinc. Stearic acid is a saturated fatty acid commonly found in animal and vegetable fats, while zinc is a mineral with various uses, including the manufacturing of batteries, alloys, and fertilizers. The combination of these two substances results in the creation of zinc stearate, a white, powdery substance that has numerous industrial applications. In sandpapers, zinc stearate is added to the abrasive coating, which increases the life and durability of the sandpaper. Zinc stearate sandpaper has several advantages over traditional sandpaper. It is popularly known for its anti-clogging properties, which reduces the build-up of dust and debris on the abrasive surface of the sandpaper. This results in a smoother finish and a longer life of the sandpaper. Additionally, zinc stearate sandpaper doesn't overheat the material being worked on, which makes it an ideal choice for grinding and sanding at high speeds.

With the growing demand for zinc stearate sandpapers in the woodworking industry, manufacturers have started producing them in various grits and sizes. They are readily available both online and offline, making it easier for consumers to purchase them.

In conclusion, zinc stearate sandpapers are a revolutionary product that is changing the game in the woodworking industry. They offer several advantages over traditional sandpapers, and with the increasing demand for them, they are becoming more affordable and readily available. If you're on the lookout for the perfect sandpaper for your next DIY project, you should definitely try zinc stearate sandpaper.

ShellPrime EZ106 Market Global Demand, Product Growth, Product Scenario, Application

A two-component zinc-rich epoxy primer is a type of protective coating used in corrosion protection systems for metal surfaces. It consists of two separate components that need to be mixed together before application. The components typically include a base component (Part A) and an activator or curing agent (Part B).

The key feature of a zinc-rich epoxy primer is its high zinc content. The primer contains a significant amount of zinc dust or zinc powder, which acts as a sacrificial anode. When the coating is applied to a metal surface, the zinc particles provide cathodic protection by corroding preferentially to the underlying metal. This sacrificial protection helps to prevent or slow down the corrosion process.

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Here are the general steps involved in using a two-component zinc-rich epoxy primer:

Surface Preparation: The metal surface to be coated should be clean, dry, and free from rust, grease, oil, or other contaminants. Proper surface preparation, such as abrasive blasting or mechanical cleaning, is essential for ensuring good adhesion and performance of the primer.

Mixing: The two components, Part A (base) and Part B (activator), are typically mixed together in a specific ratio as specified by the manufacturer. Mixing can be done manually or using specialized equipment, such as a power mixer. Follow the manufacturer's instructions for accurate mixing proportions and techniques.

Pot Life: The pot life of the mixed primer refers to the time window during which it can be applied. It is important to note and adhere to the pot life specified by the manufacturer. Once the pot life is exceeded, the mixture can start to cure and become unusable.

Application: Apply the mixed primer to the prepared metal surface using a brush, roller, or spray equipment. Follow the recommended film thickness and coverage rate specified by the manufacturer. It is crucial to achieve uniform and adequate coverage for optimum protection.

Curing: The curing process begins once the primer is applied to the surface. Curing time varies depending on factors such as temperature, humidity, and the specific product used. Follow the manufacturer's instructions regarding the curing time required before further coating or topcoat application.

Two-component zinc-rich epoxy primers are commonly used as a base coat in various industries, including marine, oil and gas, heavy equipment, and infrastructure. They provide excellent adhesion, corrosion resistance, and long-term protection for metal substrates in aggressive environments. However, it's important to note that specific product instructions and technical data from the manufacturer should always be followed for accurate application and performance.

Gi Wire Manufacturer: Providing High-Quality Wire For A Variety Of Applications

Wire has been an essential component of everyday life since its invention. It is used in infrastructure, telecommunications, and manufacturing, just to name a few applications. As such, the quality of wire being produced is paramount for safety and efficiency. That’s why GI Wire manufacturers are so important – they provide high-quality and reliable wires for a variety of uses. Like a spider spinning their web from the finest threads, these companies create wire that can be trusted to perform under pressure.

GI Wire manufacturers specialize in creating galvanized iron (GI) wires with superior strength and durability relative to other types of metal wires. The process begins with carbon steel rods which undergo hot dip galvanizing or electroplating; this results in a corrosion-resistant layer on the outside of the rod that improves its lifespan significantly. From there, multiple processes are employed depending on the intended application; shaping, coiling, weaving, drawing into filaments etc., all contribute to giving it desired properties like flexibility or tensile strength.

The end result is a product that meets stringent international standards while also providing cost savings through longer lifespans compared to traditional alternatives. In this article we will dive deeper into how GI Wire manufacturer provides high-quality wire for various commercial applications as well as explore some of the benefits associated with using them.

1. Overview Of Gi Wire

GI wire is symbolic of a strong, versatile material that serves an essential purpose in many different industries. It has become integral to countless processes and applications with its ability to withstand extreme temperatures, pressures, and corrosive elements. As such, it is important for GI wires to be manufactured with high-quality standards to ensure they can perform reliably under demanding conditions.

Manufacturers of GI wires must not only guarantee the highest purity levels but also meet stringent specifications in terms of size, flexibility, tensile strength, electrical resistance and other physical characteristics. In addition, each batch should undergo strict testing procedures before being released into the market as this ensures consistent quality throughout production runs.

By providing reliable products that exhibit outstanding performance even in challenging situations, manufacturers of GI wire are able to maintain their competitive edge while ensuring customer satisfaction. This allows them to stay ahead of industry trends and keep up with the ever-evolving needs of their customers.

2. Gi Wire Manufacturing Process

The manufacturing process of GI (Galvanized Iron) wire involves a few important steps that need to be carried out in order for the final product to meet high-quality standards. Firstly, the raw material is prepared by cutting and straightening it into specific lengths and sizes as per customer specifications. The next step is galvanizing or coating the iron with zinc to enhance its corrosion resistance and extend its lifespan. This can be done through either hot-dip galvanizing or electroplating processes depending on the nature of the application. After this, quality control tests are conducted to ensure that all the required parameters such as tensile strength, ductility, elongation percentage, etc., are met according to industry regulations.

Apart from these production-related tasks, additional measures like oiling and packaging also play an essential role in ensuring maximum safety during storage and transportation of the finished goods. Packaging helps protect them from dust, moisture and other external factors while shipping them over long distances. Furthermore, metal detectors may be used at various stages throughout the production cycle in order to detect any foreign objects which might have been unintentionally incorporated during processing.

In short, GI Wire manufacturers provide their customers with products made according to strict quality requirements utilizing advanced technologies and rigorous testing methods before they reach the market. By following best practices during manufacture, they guarantee reliable performance regardless of different applications needs so that users can benefit from cost savings due to longer life expectancy without compromising on quality output or safety standards.

3. Benefits And Applications Of Gi Wire

As opposed to the process of manufacturing GI Wire, a discussion on the benefits and applications of it is now in order. This galvanized iron wire serves a variety of purposes with its high-quality features that make it desirable for use. Here are three key advantages of using this material:

1) Corrosion resistance – The zinc coating prevents rusting due to exposure to moisture or other environmental conditions.

2) Durability – It can withstand extreme weather elements such as heat, cold, sunlight and rain.

3) Cost effective – The low cost makes it an attractive option compared to other materials.

These qualities make GI Wire suitable for numerous applications including electrical wiring, construction projects, gardening, fencing, art and craft work. Additionally, because of its strength and durability, GI Wire also finds uses in reinforcement structures such as bridges and buildings. Its ease of installation further adds value to its usage in various industries like automotive, marine and aerospace engineering where precision is essential.

It is evident then that GI Wire has many beneficial properties which have made it one of the most preferred choices among manufacturers worldwide. From corrosion resistance to affordability; from structural support to artistic creativity; there are countless ways Gi wire can be used across diverse fields making it an indispensable commodity in today’s world.

4. Why Choose A Reputable Gi Wire Manufacturer

The journey of finding the right GI wire manufacturer is like a treasure hunt. It requires researching for the best quality products, customer service, and reliable suppliers. In this article, we will explore why it is important to choose a reputable GI Wire Manufacturer when looking for high-quality wires for various applications.

First, selecting an experienced company with a proven track record in producing GI Wire provides assurance that you are getting the best possible product available. A reputable supplier also has access to innovative technologies which can be used to create top quality wires tailored to your specific needs. Additionally, they offer custom solutions so you can get exactly what you need without having to compromise on quality or cost. Finally, these companies often have long warranty periods and provide excellent after sales support services.

Another reason to select a trusted provider is because they are likely to be able to source materials from reliable sources at competitive prices. This gives customers peace of mind knowing that their purchase decision was based on value and not just price alone. Furthermore, if there ever arises any issues with their product down the line then they should have recourse against the supplier as well as being covered by any warranties offered.

In today’s market place it pays dividends to conduct thorough research before making any buying decisions and choosing a reputed GI Wire Manufacturer ensures that you receive only the highest quality product at an affordable price point backed up by excellent post-sales service. Therefore it makes sense to invest time into comparing different vendors and make sure you pick one who meets all of your requirements while offering great value for money too .

Conclusion

The selection of a GI wire manufacturer is an important decision for any business. It determines the quality, reliability and safety of their end product. A reputable company will provide high-quality wire that meets industry standards while offering superior customer service. With such an array of options available, how do you know which one to choose?

Ultimately, it comes down to understanding your requirements and researching the various GI wire suppliers on the market. This includes looking at their manufacturing process, benefits, applications and customer testimonials. Once you have narrowed down your list of potential companies, contact each one directly and ask about pricing, delivery times and availability of custom orders. Also make sure to inquire about additional services they offer like testing or certifications.

By selecting a reliable GI wire manufacturer with experience in providing clients with high-quality products, businesses can rest assured knowing their projects are in safe hands. Taking time to research all aspects of a potential supplier helps ensure that customers get exactly what they need without having to worry about costly delays or substandard components damaging final products.

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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TAFAKKUR: Part 411

OUTER SPACE: MANKIND'S NEW FRONTIER: Part 2

B) MINING

The samples collected by the Apollo showed that lunar soil contains, as percentages, 41.3 oxygen, 21.6 silicon, 15.3 iron, 5.4 aluminium, 6.8 magnesium, 0.1 potassium. There are also traceable amounts of sodium, sulphur, hydrogen, nitrogen, copper, zinc and lead in the samples collected (Bille, 1990, p.109). Out of these lunar materials, various minerals and metals, alloys, cement, electrical conductors, glass, silicone resins, rocket propellants and numerous industrial chemicals could be produced. One study concluded that hydrogen and oxygen, stored in lunar rocks, could be used to make air, water and rocket fuel. It is also said that the moon is rich in helium-3, which, almost non-existent on earth, may be usable as an ideal fuel for fusion power plants because of its low radioactivity (ibid., p.110).

Apart from the moon’s rich resources, asteroids are seen as extremely valuable celestial bodies. Scientists have found that there are dozens of mineral-rich asteroids circumnavigating the earth. These asteroids are on average 500 metres across and made of solid nickel-iron. Just one such asteroid could possibly meet years of global demand for these elements. Scientists reckon that asteroids within the vicinity of the earth contain abundant amounts of nitrogen, hydrogen and free metals. It is technologically feasible to process these asteroids on an industrial scale in outer space, more easily than exploitation of the moon’s resources. Such extraterrestrial production could avert earthbound pollution and potential conflicts over scarce earth resources (Condora, 1984, p.178). It was estimated in the 1980s that an asteroid could be worth five billion dollars. It is also projected that asteroids would be processed in outer space for extraterrestrial construction of space stations.

C) SPACE MANUFACTURE

Although satellite communications and remote sensing are already very profitable commercial enterprises, space manufacturing is thought to have even greater commercial potential. As space is a relatively dust-free, micro gravity environment, it offers a unique laboratory setting for the development and processing of some complicated chemicals, pharmaceuticals, semi-conductor crystals, glass and metal alloys-indeed, production under micro gravity conditions is estimated to be up to 500 hundred times that possible on earth and with a degree of purity unobtainable on earth (Jericho and McCracken, 1986, p.802).The potential market sales for such products is reckoned at around $20 billion annually.

Additionally the relatively uncontaminated space environment is an ideal place for growing crystals used in computers, optoelectronics and ultrasonic equipment; for developing floride glass used in laser and fibre optic applications; and for producing new metal alloys as well as metals of higher purity and structural uniformity (ibid., p.803). In sum, the horizons for potential use of space are immeasurable.

THE ISLAMIC COUNTRIES AND SPACE ACTIVITIES

Our concern is to find out what the Muslims are doing or not doing in the face of the continued progress of the space-faring Christians (NASA, ESA), the Jews (Israel), the Buddhists (People’s Republic of China, Japan), the Hindus (India). It was declared at the beginning of the ‘space age’ that space would be a province all mankind. However, it is apparent that it is only the technologically advanced non-Muslim states who are ploughing in huge sums of money into aerospace technology and enjoying the benefits of the outer space environment. Muslims in general seem unaware of the fact that it is enjoined upon them to keep abreast of the latest science and technology and to be as equipped as the non-Muslims. For example, in Sura al-Mulk, God directs our attention to the Heavens:

‘He who created the seven one above another: you will see no want of proportion in the creation of the Most Gracious, so turn your sight again: Do you see any flaw? Again turn your vision a second time; your sight will return to you dim and discomfited, in a state worn out’ (67.3-4. See also 7.54; 13.2; 21.33; 36.40;51.7; 81.15.)

Coating & Construction Chemicals

Every establishment, building, even transport mediums like aircrafts and ships cannot merely survive without any fixture or an extra protective layer to protect them from regular, harsh conditions of heat, corrosion, dust etc., which they face almost every day. Thankfully, the chemical industry has come up with an entire class of compounds that are "coating and construction chemical" and are used with cement, concrete or paint that helps to reinforce their ability to defy the harsh weather conditions affecting buildings and even ships.

These chemicals are widely used in any real estate construction, manufacturing of cars, ships and aircrafts as well. These coatings and chemicals are primarily manufactured by Carboline Company, who provide high-performance coatings, linings and fireproofing products and chemicals. These can be later augmented with other general construction compounds before their final application and form the crucial basis for formulating the safety and strength of any establishment.

Coatings and Construction chemicals include-

Primers made of epoxides help in better coverage of paint and fight off the dampening of the walls and other surfaces. These also include highly heat-resistant varieties which are used in various units that are prone to heat.

Carbamates and Polyurethanes are two classes of organic chemicals which are widely used for weather protection and are often used in ships and boats for prevention of seaborne corrosion and protection against repeated water exposure.

Pyrogens based cement and finishes which are based on gypsum are an efficient fire-resistant construction chemical that is used in smelter units and manufacturing units with problems of high heat generation.

Zinc-based coatings and primers are a rising class of coating materials that have a profound use in steel coating for resisting corrosion and providing surface robustness.

These are few prominent examples of coatings and construction chemicals which are now in greater demand and whose annual business revenue is around $7.7 billion in the global chemical market share. This exemplifies the need and demand for such chemicals even though they have a long-term benefit upon application which limits its usage.

For all the construction firms and real estate agencies seeking consultancy about what material to use, where to use, and looking out to buy quality products, Tominna Trading WLL the perfect stop for all. Visit http://www.tominnawll.com/ and go through their wide and varied catalog of products. You’re sure to find what you’re looking for!

Directory of Industrial Raw Materials Manufacturers and Suppliers - Buy Sell Trade Online

Raw materials are the foundation upon which your industry is built; they must be of the highest quality while also being economical. Most people believe that these two possibilities cannot be found in one location, however Indiabizzness is providing you with this opportunity. You may easily Buy Sell industry raw materials from our online market. The procedure of the listing is so simple, you just have to register your business on our website and then list your products without giving any registration charge.

If you're curious, in this post you'll learn about the many types of raw materials available in the market, which is available on our website.

NATURAL AND SYNTHETIC RUBBER- Our online market offers the highest-quality natural and synthetic rubber, which is both high-quality and cost-effective. You can Get the list of Natural Rubber Products & Synthetic Rubber Products for your purchase.

LUBRICANTS OILS AND PETROLEUM PRODUCTS- We have listed Indian industry-based petroleum products and lubricant oils from petroleum product manufacturers, lubricant oil manufacturers, lubricant oil dealers, petroleum product dealers, lubricant oil traders, and petroleum product exporters who offer the best deals at the super finest quality and best rates.

METAL SCRAPS, FERROUS/STEEL METALS- On our website, various suppliers from various brands have listed their products that can be used for anything from seasonal demand to a continuous supply of coal, ores, clay materials, and mineral ores, and are useful in the proximity with the resources available for easy industrial production and management in India.

PAPER PRODUCTS- Oho, don't you worry, Suppliers, Manufacturers, Traders, Exporters, and Distributors in the Paper Waste Product Industry can be found here.

WOOL AND WOOLLEN YARN- Indiabizzness is the greatest B2B site for buying and selling high-quality Wool, Woolen Yarn, and Woolen Fabrics online. Get the best discounts on high-quality woollen textiles from top manufacturers, suppliers, merchants, and exporters in the Woolen Textile business from across India.

OIL SEEDS- We have castor seed oil, groundnut oil, sesame oil, mustard oil, essential oil, Soybean oil, sunflower oil, and other oil seeds manufactured in India on display.

Chemicals And Derivatives-  All Kinds Of Dyes And Chemicals, Textile Auxiliaries, Intermediates, Baby Care, Ammonium Sulphate, Copper Sulphate, Zinc Sulphate, Manganese, Dusting Oil For Spray Dryer, Textile Auxiliary, All Types Of Chemicals, Derivatives Products, Sodium Bisulphite, Sodium, Fire Chemicals, API ChemicalsAll Types of Decorative And Industrial Paints, Coatings, Distemper, etc are available here

Cotton And Cotton Yarn-At eBay prices, Indiabizzness offers listings in cotton and cotton yarn from leading producers and dealers across India.

Cement And Asbestos- Buy Fly Ash, Asbestos Yarn, Asbestos Ropes, Asbestos Cloth, Asbestos Packings, Cement, Pp Woven Cement Bags, Wall Putty, and other Cement Industry products online at Indiabizzness.com at the lowest prices.connect us through our website www.indiabizzness.com or call us at +919818327437, also our email id is [email protected]

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Epoxy Zinc Rich Primer Coating To Enhance Corrosion Resistance

Epoxy zinc rich primer coating belongs to zinc coatings which are applied to protect ferrous surfaces from corrosion. So the zinc based primer coating provides cathodic protection for the steel surfaces. Because zinc is anode to steel, these particles corrode first, thus protecting the ferrous substrate beneath the primer from corrosion. Being a trustworthy enterprise, Protexion presents a comprehensive assortment of epoxy zinc rich primer coating. Our offered product is highly demanded for the purposes of coating oil tankers. 

Zinc rich primer coatings are designed for application on blast cleaned steel. This Epoxy Zinc Rich Primer coating is compatible with every type of coating and is most commonly used as a prefabrication primer. It can be used even without overcoating to protect the inside of cargo tanks in oil – tankers and ships. 

What is Epoxy Zinc Rich Primer?

Epoxy Zinc Rich Primer is a two-pack process enriched with metallic zinc to provide superb efficiency in a highly corrosive environment. Metallic zinc provides cathodic protection for base metal groups and Epoxide reacts with polyamide / amine adduct hardener to form hard, non-convertible film at ambient temperatures. It resists photo degradation by UV light as it contains UV absorber. 

The zinc particles are more active than steel and act as anodes in the coating that corrode sacrificially instead of the steel when they are exposed to water, oxygen, and/or chlorides. Epoxy Zinc rich primer coatings are primarily used to protect steel structures from corrosion; and organic zinc-rich primers are often preferred over inorganic zinc-rich primers because they are less sensitive to surface preparation, over application, and humidity, making it easier to apply.

Safety Precautions to Take When Applying Epoxy Zinc Rich Coating:

Do not inhale solvent vapour or paint mist with a face mask. Use goggles and gloves to protect against direct skin and eye contact with paint.

Clean with fresh running water in case of pollution and seek urgent medical assistance.

Keep the material away from fire, lightning and direct flames

Provide sufficient ventilation while working with solvent based paints in confined spaces and stagnant air.

Protection Mechanism of Epoxy Zinc Rich Primer Coating

Initially, once the epoxy zinc rich primer coating and the top coating are applied on the substrate as a continuous layer, the coating system acts as a barrier to corrosive environments. The coating fully isolates the substrate from the environment.

Only after a defect is formed in the coating, thus partially exposing the substrate to the corrosive environment, does the zinc rich primer layer play its part in providing sacrificial corrosion protection to delay the onset of the electrochemical reaction (corrosion) of the substrate. 

The amount of sacrificial protection provided depends upon variables such as the purity of the zinc dust used, the presence of moisture, and the electrical conductivity between the substrate and interconnected zinc particles. Thus, the zinc used in the primer is anodic to the ferrous substrate that acts as a cathode. Once the zinc particles are converted into zinc oxide, the sacrificial protection will end.

Protexion the protective coating and solution provider manufacturer of epoxy zinc rich primer coating and galvanizing coating. We are prepared by utilizing good quality solvents, pigments, binders and additives. All our products are formulated by our expert professionals making use of high quality ingredients. These products are formulated in compliance with the international standards. Our epoxy zinc rich coating offered products are appreciated in the market for their features such as high water solvency and accurate composition. Moreover, this range can be availed in the market at industry leading prices.

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Do you know electret masterbatch

Electret masterbatch is a special functional masterbatch used with electret equipment. With the rapid spread of the global epidemic, the market demand for melt blown cloth has surged. With the massive increase in the production capacity of 95 and 99 melt blown cloth, As one of the important raw materials for the production of meltblown cloth, the production capacity of high-end electret masterbatches has also begun to be in a hurry. Since the outbreak of the new crown epidemic in 2020, masks have been an indispensable daily necessities in this environment, and they have also pushed masks to the forefront, causing the market's mask prices to skyrocket and sell out.

To put it simply, the electret masterbatch is a special functional masterbatch for meltblown cloth. The principle of action: a micron-level powder compounded by dispersant. It has the function of producing electric ions and storing electric charges. Under the action of the initiator, the magnesium-lithium tourmaline permanently releases electric charges and negative air ions, which increases the ability of the mask to absorb electrostatically and sterilize negative ions, and effectively block droplets, dust, and viruses below micrometers etc.

After the electret is heated and pressurized, the discharge performance of the magnesium lithium tourmaline will be further strengthened, and the effect will be doubled every ten degrees of temperature increase, and the finer the fineness, the more static electricity is generated, and the adsorption capacity is also enhanced.

Medical masks are generally divided into three layers: the first layer is a waterproof and sterile layer, the second layer is a filter electret layer, and the third layer is a water-absorbing and skin-friendly layer. The main function of virus filtering for masks is the extremely fine and electrostatically charged middle layer filter cloth-meltblown non-woven fabric.

The second layer of electret melt-blown cloth with electret masterbatch and high-voltage piezoelectric treatment is the most important part. The melt-blown cloth will only be charged after electret treatment, so that it will be charged to the same charged The 0.3 micron virus particles have an efficient adsorption effect. To allow this static electricity to be stored, the material composition and structure are required to allow the electret to facilitate charge retention. In the process of electrostatic storage and charge retention, the addition of electret masterbatch plays a vital role. Its magic is that adding a small amount of electret masterbatch can increase the density and depth of the charge trapping energy trap in the meltblown nonwoven fabric, effectively release negative ions and store charges to improve the comprehensive filtration of the meltblown nonwoven fabric. Effectiveness and resistance to thermal degradation. Under the condition of the same fiber fineness and gram weight, it can reduce the resistance of non-woven products and improve the filtration efficiency of non-woven products.

JOYSUN was established in 2005, focusing on the production of plastic rubber foaming agents, WPC additives and PVC calcium-zinc stabilizers, with R&D and export services. In addition to production aids, JOYSUN is also a technical service provider and promoter in the field of plastics and rubber. We are a manufacturer of meltblown additives, if you need it, please contact us.

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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Tubes and pipes in technical and everyday use

In the beginning was the hollowed-out tree trunk, one of the first capillary tube to be crafted by human hand. With a vast array of models in the plant world to inspire him, Homo sapiens had a much easier job inventing the tube than the wheel for which, by contrast, nature had no example to offer. Bamboo and reed are just two examples of plants with hollow stalks. Nature already knew the value of the tubular form, which combines high stability with the capacity to Transport essential substances for growth, such as water and nutrients, out of the earth.

In technical terms, a tube or pipe is a cylindrical, hard hollow body which usually has a round cross-section but can also be oval, square, rectangular or more complex in profile. It is used on the one hand to convey liquid, gas and solid matter and, on the other, as a construction element. Whatever its purpose, the term covers all sizes and diameters, from the smallest needle pipes right up to wind tunnels. No other profile shape with the same material cross-section has such a high flexural strength, which is what makes the tube so important as a load-bearing element in building.

Tubes for transporting purposes

In the past, people always tried to settle close to water. As the size of the settlements grew, it became increasingly difficult to get the water from the source - the spring, pond, river or lake - to the different dwellings. At first, people used open conduits - initially simple trenches, later stone canals. When the springs and sources were exhausted, aqueducts were used to carry water from the mountains into the towns. Some 300 years A.D., the Romans transported water from the Campagna into their capital and some of their impressive waterways can still be marvelled at in modern-day Europe.

Later, the open canals were covered over and used as closed conduits - and thus the pipeline was born. People were also quick to realize the benefits of closed pipes against open canals for removing waste water. Early pipe materials included wood and stoneware (fired clay), but also easy-to-work metals such as bronze, copper and lead. The first closed pipelines were made around 4,000 years ago of fired clay. The oldest metal pipelines date back to 200 years B.C., first made of bronze and later lead. Lead pipes were cast and chiefly used to Transport water. Copper pipes meanwhile were made from chased copper plate which was rolled and subsequently soldered together.

The advent of an economical method of producing large quantities of cast iron in the 14th century laid the foundation for the manufacture of iron pipes. Gunsmiths and cannon-makers were amongst the first to produce iron pipes. Cast iron pipes were used as early as the 15th century to carry water - some dating back to the 16th century are still in use today. Cast iron pipes also accompanied the development of a public gas supply network, for which compression-proof pipes were a matter of safety and therefore absolutely essential.

As more economical steelmaking methods were developed, an opportunity opened up for this material to be used for pipes. The first were forge-welded out of hoop steel, a method already known to gunsmiths in the Middle Ages. Around 1880, the invention of crossrolling by the Mannesmann brothers also made it possible to produce seamless pipes and tubes. With their thicker walls, seamless pipes offered greater stability at a relatively low weight. Oil-prospectors used such pipes to reach deeper reservoirs and by doing so were able to satisfy the growing demand for mineral oil which accompanied the early days of motorisation. The fact that mineral oil could be transported economically over long distances through a pipeline pushed up the demand for steel pipes even further. Soon, pipelines came to be the biggest market in this area, with demand reaching several million tonnes of welded and seamless pipes every year.

The crucial importance of how a pipe is made for the economic efficiency and environment-friendliness of industrial plant can be illustrated with the contemporary example of seamless boiler pipes with inner ribs. For years the power industry has been aiming to reduce fuel consumption and thereby cut CO2 emissions by stepping up efficiency. This can be done by working with higher operating pressures and temperatures. Consequently, plans have been made to set up new power plant in the first decades of the next century, which will run with pressure levels of up to 350 bar (today's maximum is 300 bar), at operating temperatures of around 700 "C (as opposed to 600 'C) and with efficiency increased from fts current 40% to 50%. Operating parameters of this kind can only be used for suitabie products and materials, of which seamless boiler pipes with inner ribs are one example. On account of their internal geometry, these pipes substantially improve the heat transfer between heating and the vapour phase on the inside of the pipe.

Pipes made of nonferrous metals and plastics Thanks to its good corrosion resistance, copper can be used to make pipes for the chemical industry, refrigeration technology and shipbuilding. Alongside their application for installation purposes, the usually seamless copper pipes are also used in capacitors and heat exchangers. For corrosive materials, low temperatures or stringent demands on the purity of the material carried by the pipe, Aluminium and Aluminium alloys are used in pipe construction. Meanwhile, thanks to its high resistance to many aggressive materials, titanium is well- suited to use in chemical engineering.

Plastics belong to the group of newer pipe materials. With the development of methods for producing plastics on an industrial scale in the 1930s, it also became possible to manufacture plastic pipes economically. By the middle of the 30s, plastics were already being used in Germany to make pressure pipelines. Among the chief advantages of plastics are their high corrosion resistance and a substantial chemical resistance to aggressive media. Moreover, the smooth surfaces mean that plastic pipes are not prone to incrustation, which can have a very detrimental effect on their conveying capacity. Pipes supplying drinking water are mostly made of polyethylene (PE) or polyvinyl chloride (PVC). Like ABS (acrylonftrile-butadiene-styrene copolymer) plastics, these two materials are also used for gas pipelines. Thermoplastic materials - alongside PE and PVC these include PP (polypropylene) and PVDF (polyvinylidenefluoride) - can also be used for industrial pipelines. Beyond these, PB (polybutene) and PE-X (cross- linked polyethylene) are also widespread in pipe-making. Plastic pipes find application in areas such as heating technology, shipbuilding, underwater pipelines (the crossing below a river floor from one bank to the other), irrigating and drainage plant, and well-building.

The right choice of material has a crucial bearing on the economic efficiency and safety of a pipe system. Materials therefore have to be selected according to the demands of each specific application. In steel boiler construction, for example, pipes must be made of steel with high temperature stability plus heat and scaling resistance, while special corrosion resistance is all-important in the chemical and foodstuffs industries. Meanwhile, the mineral-oil processing industry requires heat- proof or press-water-resistant steels for its pipes, gas liquefaction and separation, on the other hand, need materials which have special strength at low temperatures. This broad and highly diversified range of requirements has put a fantastic array of materials to use in pipe- making. Alongside the iron and steel, nonferrous metals and plastics mentioned above, these also take in concrete, clay, porcelain, glass and ceramics.

In addition to liquids and gases, solid matter, broken down, as dust or mixed with water in slurry form, is also pumped through pipelines. Gravel, sand or even iron ore can be conveyed in this manner. Pneumatic transportation of grain, dust and chips through pipes is also a widespread practice. Pneumatic tube conveyors, which similarly work with air, are another important mode of transporting solid matter.

Pipes may be several meters in diameter and pipelines many kilometers in length. At the other end of the scale are conduits with tiny, barely perceptible dimensions. One example of their use is as cannulas in medicine - a collective term referring to instruments with a variety of applications, including infusions, injections and transfusions. Their outer diameter ranges from over 5 millimeters to as little as 0.20 millimeters. Cannulas are made of high-quality grades of stainless steel, brass, silver or nickel silver (an alloy of copper, nickel and zinc, sometimes admixed with traces of lead, iron or tin), but also plastics such as polyethylene, polypropylene or Teflon. Often, different materials are combined with one another to produce the individual components. These tiny tubes must have extremely pronounced elastic properties. They may bend but under no circumstances snap. Their surfaces are often nickel[-plated and always highly polished, sometimes even on the inside. The best-known cannulas are hypodermic needles which, in their most common form as sterile disposable syringes, guarantee aseptic use without costly preparation for reutilisation.

Tubes for construction

No matter where we look in our cities today, we can be sure to see tubular steel constructions. They have become an indispensable element of modern building technology. Once again, we took the idea from nature: in tube-shaped straws, bamboo shoots, quills and bones, Mother Nature demonstrated the successful marriage of beauty and function. Yet these excellent static properties remained unexploited until the advent of welding technology made it possible to connect virtually all dimensions of pipes perfectly and with the necessary interaction of forces for use as construction elements.

As an extremely lightweight building element, steel tube combines high strength with low weight. Steel tubes are used as deck supports in shipbuilding, supports in steel superstructures and binders in building construction. They are used as tubular and lattice masts for overhead and overland transmission lines, for trains and trams, and for lighting. Bridges, railings, observation towers, diving platforms, television towers and roof constructions in halls or sports stadiums are all further examples. Steel tube is also a popular" building element for constructions in temporary use, such as halls, sheds, bridges, spectator stands, podiums and other structures for public events, supporting structures and scaffolding, from the small-scale for house renovation right up to building scaffolds.

In plant engineering, steel tube is used to make ladders, shelves, work tables and subframes for machinery and plant. Steel tube also found its way as a construction element into precision components for machinery and equipment. Shafts and rolls or cylinders in hydraulics and pneumatics are just two examples. Beyond these applications, a great volume of steel tube is used in the cycle industry, camping equipment manufacture, the furniture industry, vehicle and car making and the domestic appliances industry.

Be it on water, over land or in the air, the various modes of Transport would be lost without pipes & tubes. Pipes and tubular construction elements are to be found in ships, planes, trains and motor vehicles. A great variety of pipes and tubular profiles are used in car making, both in connection with the motor and with the chassis and bodywork sections. Most recent developments put them to a far more varied range of uses than before, from air suction pipes and exhaust systems through chassis components right up to side-impact tubes in doors and other safety features. One German car makers new lightweight concept takes as its basic subassembly a three-dimensional frame made up of complex Aluminium extruded sections joined together with the aid of pressure-diecast intersections.

Pipes in everyday use

We come into contact with pipes and tubes on a daily basis. It starts in the morning when we go to clean our teeth and squeeze the toothpaste from this tube, which is nothing other than a tube-shaped flexible container. We write notes with a pen, comprising one or more tubes with a smaller tube - the cartridge or refill - inside it. This is the modern equivalent of the quill, a pointed and split tube used in ancient times as a writing instrument and still used today for Arabic script.

We are surrounded everywhere we go and on a virtually constant basis by seamless pipe ＆ tube, whether at home, on the move or at work. They take the form of lamp stands and furniture elements in chairs or shelves, curtain rails, telescopic aerials on portable and car radios, and rods on umbrellas or sunshades. And when we water the plants or hang out the washing, tubes are our constant companion - on the watering can or the clothes-horse. Pipes Transport electricity, water and gas directly into our homes. Tubes protect visitors to the Duesseldorf Trade Fair Center from the rigours of the Rhineland weather. Pipe constructions are responsible for a pleasant indoor temperature and prevent the hall roofs from falling on our heads. Civil engineers and architects choose special section tube constructions for windows and doors in preference to other solutions. Tubes even have a role to play in our leisure time, providing us with bicycles, training apparatus and sports equipment.

Musical pipes

Musical instrument-making would be unthinkable without welded pipe ＆ tube. The tuba illustrates the connection particularly well: the name of this brass instrument is nothing other than the Latin word for tube. Other brass and pipe instruments also take the tube form. The reed used in a variety of wind instruments such as the clarinet, saxophone, bassoon or oboe is a flexible piece of cane which is fixed into the mouthpiece of the instrument or acts as a mouthpiece itself. Organ pipes also rely on the tube shape to create their sound. They are made of lead and tin, zinc or copper and are still crafted today according to a centuries-old Tradition.

CD stands in the shape of organ pipes make for an original link between two musical words. These CD stands are just under two meters in length, accommodate up to 50 CDs and, if required, can be supplied with interior lighting. Normally out of sight but critically important for good sound quality are the bass-reflex pipes found in loudspeakers. With the proper dimensions in length and diameter, these pipes help to reproduce low-pitched tones without any distortion as a result of unwanted flow noise.

Through squre pipe ＆ tube flows the lifeblood of progress and without them our lives would not be nearly as comfortable. They make everyday life easier, safer, more attractive, more varied and more interesting. More to the point, though, they have become indispensable for our existence, shaping the development of our lives to lasting effect in the past and undoubtedly continuing to do so in the future.

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.