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Flocculant Chemicals Manufacturers 

Flocculant chemicals are critical for water treatment, wastewater management, and various industrial techniques. These specialized compounds promote the clumping of particles, helping in sedimentation and purification. Leading flocculant chemical manufacturers provide a wide variety of merchandise tailor-made to specific programs, making sure efficient and effective treatment solutions.

Materials scientists develop road map for designing responsive gels with unusual properties

Soft polymers with the combined properties of electrolytes and traditional polymers offer some unique and desirable properties that can be drastically changed on demand. These gels, called metallo-polyelectrolyte complexes (MPECs, pronounced "EM-pecks"), can be stimulated externally by magnetic, electrochemical, and optical stimuli, making them ideal for some energy devices, responsive actuators, and nanofiltration systems. Metal ions within their cores provide the materials with these unique capabilities and form dynamic, "reversible" ionic bonds with polymer chains rather than much harder to break covalent bonds.

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I must introduce you all to my favorite academic journal article ever.

This is Steve Moss's article on bumblebees. It consists of ten paragraphs of rambling about what I can only assume are the top 10 results when you search for "bumblebee" on google--everything from the famous Autobot Transformer, to spelling bees, to colony collapse disorder. The article follows no overarching structure or even any particular message; it mixes these possible search result topics with his own anecdotes (like the time he heard Flight of the Bumblebee in a YouTube video, or the time there was a bee on the plane he'd taken to Colorado).

The whole thing ends as abruptly as it starts, and you could read the individual paragraphs in basically any order you like without losing any meaning or context. It is top-to-bottom just a stream of consciousness about a topic some guy thought was interesting for a short time, sprinkled with citations for everything from "Conjugated Polyelectrolytes for Organic Electrochemical Transistors" to "Decepticon" on the Transformers Wiki. It feels like an absurdist's rendition of an academic paper, from some fictional world where the normal rules and standards to which we'd hold an academic paper do not apply. Thank you, Steve Moss, for presenting us with such a masterpiece.

Flocculants And Coagulants Market To Reach $16.61 Billion By 2030

The global flocculants & coagulants market size is anticipated to reach USD 16.61 billion by 2030 and is projected to grow at a CAGR of 3.9% from 2024 to 2030, according to a new report by Grand View Research, Inc. The market growth is attributed to the rising demand for wastewater treatment, which has been prompted by the implementation of stringent government regulations worldwide. In addition, the increasing preference for eco-friendly solutions in water treatment processes has also played a crucial role in driving the market forward.

Advancements in sustainable and natural-based products have emerged as a significant driver for market growth in the field of wastewater treatment. The use of chemical coagulants and flocculants often results in the generation of a substantial volume of sludge, which increases the cost and complexity of disposing of potentially hazardous waste. For instance, chitosan, a natural organic polyelectrolyte, has been successfully used as a coagulant in the treating the textile industry wastewater. Studies have shown that chitosan effectively flocculates suspended particles and reduces levels of Chemical Oxygen Demand (COD) and turbidity in textile industry wastewater

Emergence of alternative water treatment technologies has emerged as a threat for the market around the world. As technology advances, new methods and technologies for water purification are being developed, such as membrane filtration and advanced oxidation processes. These alternative technologies may offer more efficient and sustainable solutions, potentially reducing the demand for traditional flocculant and coagulant products.

Rapid industrialization and urbanization in countries like China and India have led to increased wastewater generation, creating a demand for efficient water treatment processes. The region's high economic growth, flourishing chemical industry, and high industrial output contribute to the significant market share held by Asia-Pacific in the global market. 

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Flocculants And Coagulants Market Report Highlights

Based on type, the flocculants segment is anticipated to witness at the fastest CAGR of 4.1% during the forecast period, owing to increasing usage of the chemical in water treatment activities around the world

Based on end-use, the municipal water treatment segment is anticipated to witness at the fastest CAGR of 4.4% during the forecast period, due to increasing pressure exerted by environment protection laws & regulations, forcing expansion of water treatment activities in construction, textile and other industries

Asia Pacific is anticipated to witness at the fastest CAGR of 4.5% during the forecast period, due to the significant growth in high-growth developing markets such as China and India which have increased their consumption of water treatment chemicals due to rapid industrialization and infrastructure development

Natural-based coagulants and flocculants, derived from sources such as plants and microorganisms, are gaining popularity due to their lower environmental impact. These natural-based products offer an alternative to traditional chemical-based flocculants and coagulants. 

Flocculants And Coagulants Market Segmentation

Grand View Research has segmented the global flocculants and coagulants market report based on product, end-use and region:

Flocculants And Coagulants Type Outlook (Revenue, USD Million, 2018 - 2030)

Flocculants

Coagulants

Flocculants And Coagulants End Use Outlook (Revenue, USD Million, 2018 - 2030)

Municipal Water Treatment

Oil & Gas

Pulp & Paper

Mining

Others

Flocculants And Coagulants Regional Outlook (Revenue, USD Million, 2018 - 2030)

North America

U.S.

Canada

Mexico

Europe

Germany

UK

France

Italy

Spain

Asia Pacific

China

Japan

India

South Korea

Central & South America

Brazil

Argentina

Middle East and Africa

Saudi Arabia

South Africa 

List of Key Players in the Flocculants And Coagulants Market

Kemira

BASF SE

Ecolab Inc.

Solenis

Syensqo

Feralco AB

IXOM

Buckman

Kurita-GK Chemical Co., LTD.

Evoqua Water Technologies LLC

Polyelectrolytes Market to Surpass USD1.8 billion by 2031

The global polyelectrolytes market is projected to flourish at a CAGR of 4.5% from 2023 to 2031. As per the report published by TMR, a valuation of US$ 1.8 billion is anticipated for the market in 2031. As of 2023, the market for polyelectrolytes is expected to close at US$ 1.26 billion.

Increasing demand for polyelectrolytes in water and wastewater treatment processes for coagulation, flocculation, and solid-liquid separation, is likely to drive the market for polyelectrolytes during the forecast period.

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Competitive Landscape

The polyelectrolytes market is highly consolidated with the presence of a few global players. The leading players in the market are investing in new product development, mergers, and acquisitions to gain a competitive edge. Transparency Market Research has profiled the following players in its global polyelectrolytes market report

SNF

Thermax Limited

Dow Chemical

BASF SE

Arkema

Kemira Oyj

Henan GO Biotech Co., Ltd

Ecolab Inc.

Solenis

Buckman Laboratories International, Inc.

Veolia Water Technologies & Solution

Lenntech B.V.

KURITA (SINGAPORE) PTE. LTD

Key Developments in the Polyelectrolytes Market

SNF is known for its commitment to research and innovation. The company invests significantly in R&D to develop new and improved polymer solutions with an emphasis on sustainable practices and technologies in its operations and products. The company's polymers play a role in improving the environmental performance of industries by facilitating efficient water treatment and waste management.

Kemira Oyj Introduced new polyelectrolyte products optimized for water treatment processes, emphasizing improved efficiency and sustainability. The industry making collaborations with research institutions and water treatment facilities to develop innovative solutions for challenging water quality issues.

The surging industrialization and expansion of industries such as textiles, paper and pulp, chemicals, and mining generate demand for polyelectrolytes for applications like process optimization, solid-liquid separation, and wastewater treatment.

The increasing demand for enhanced oil recovery in oil and gas leads to increased demand for polyelectrolytes. Polyelectrolytes are also used in mining operations for ore processing, separation, and tailings treatment.

Increasing stringent government environmental regulations and awareness related to water quality and waste management encourage industries to adopt efficient water treatment solutions that utilize polyelectrolytes for effective pollutant removal, spurring market growth.

Key Takeaways from the Market Study

As of 2022, the polyelectrolytes market was valued at US$ 1.2 billion

Based on type, the polycation segment is estimated to lead the global market during the forecast period.

Based on source, the synthetic segment accounts for the highest market share

Based on the application, the enhanced oil recovery segment accounts for a high share of the galvanized steel coil market, due to growing applications of polyelectrolytes in enhanced oil recovery (EOR).

Polyelectrolytes Market: Key Trends and Opportunistic Frontiers

The growing global population, urbanization, and industrialization drive the demand for effective water treatment solutions, contributing to the growth of the polyelectrolytes market.

Increasing demand for polyelectrolytes in drug delivery systems and biopharmaceutical formulations, and as stabilizers for proteins and enzymes, is expected to boost the market growth

The rising demand for efficient treatment solutions for their wastewater and process streams in industries such as oil & gas, mining, paper and pulp, and textiles is expected to offer significant opportunities for the polyelectrolytes market

Rapid industrialization and infrastructure development in emerging economies create new opportunities for polyelectrolytes in various applications.

Increased technological advances and ongoing research and development efforts to improve the performance of polyelectrolytes and develop new formulations that meet specific application requirements contribute to market growth.

Polyelectrolytes Market – Regional Analysis

North America is expected to account for a significant market share in the polyelectrolytes market. The presence of various industries such as paper and pulp, textiles, and pharmaceuticals, contribute to the demand for polyelectrolytes. Increasing focus on water quality and environmental regulations, driving the demand for polyelectrolytes in water and wastewater treatment processes.

Asia Pacific is expected to dominate the polyelectrolytes market during the forecast period. The region’s population growth and water quality challenges drive the use of polyelectrolytes in water treatment. Increasing industrial growth in countries like China and India contributes to the demand for polyelectrolytes in applications ranging from water treatment to textiles.

Polyelectrolytes Market – Key Segments

By Type

Polycations

Polyanions

Polysalts

By Source

Natural

Synthetic

Chemically Modified

By Composition

Homopolymer

Copolymer

By Application

Coagulants

Flocculants

Thickener

Emulsifier

Enhanced Oil Recovery

Drug Delivery Systems

Batteries & Supercapacitors

Others

By End-use

Wastewater Treatment

Sugar Industry

Paper & Pulp

Power

Mining & Metallurgy

Personal Care

Oil & Gas

Medical

Energy Storage

Others

Region

North America

Europe

Asia Pacific

Middle East & Africa

South America

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About Transparency Market Research

Transparency Market Research, a global market research company registered at Wilmington, Delaware, United States, provides custom research and consulting services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insights for thousands of decision makers. Our experienced team of Analysts, Researchers, and Consultants use proprietary data sources and various tools & techniques to gather and analyses information.

Our data repository is continuously updated and revised by a team of research experts, so that it always reflects the latest trends and information. With a broad research and analysis capability, Transparency Market Research employs rigorous primary and secondary research techniques in developing distinctive data sets and research material for business reports.

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Polyelectrolyte mannan from diatoms reshapes sunlit ocean microbiome

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Chrome Free Lignosulphonate (CFL) in Ahmedabad - Chem Fert Chemicals

Chrome Free Lignosulphonate (CFL) in Ahmedabad - Chrome Free Lignosulphonate Ahmedabad, Chem Fert Chemicals - Chrome free lignosulphonate (CFL) is a natural polyelectrolyte extracted from wood pulp during papermaking.

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The day when human beings finally set foot on Mars is rapidly approaching. Right now, NASA, the China National Space Agency (CNSA), and SpaceX have all announced plans to send astronauts to the Red Planet “by 2040”, “in 2033”, and “before 2030”, respectively. These missions will lead to the creation of long-term habitats that will enable return missions and scientific research that will investigate everything from the geological evolution of Mars to the possible existence of past (or even present) life. The opportunities this will create are mirrored only by the challenges they will entail. One of the greatest challenges is ensuring that crews have access to water, which means that any habitats must be established near an underground source. Similarly, scientists anticipate that if there is still life on Mars today, it will likely exist in “briny patches” beneath the surface. A possible solution is to incorporate a system for large-scale water mining operations on Mars that could screen for lifeforms. The proposal, known as an Agnostic Life Finding (ALF) system, was one of thirteen concepts selected by NASA’s Innovative Advanced Concept (NIAC) program this year for Phase I development. The concept was proposed by Steven Benner and a team from the Foundation for Applied Molecular Evolution (FfAME) in Alachua, Florida. Benner is a former professor of chemistry at Harvard University, ETH Zurich, and the University of Florida, where he was the V.T. & Louise Jackson Distinguished Professor of Chemistry. In 2005, he founded the Foundation For Applied Molecular Evolution, where he and his colleagues became the first scientists to synthesize a gene, thus giving birth to the field of synthetic biology. As Benner and his team explained in their proposal, the ALF system is designed to simplify astrobiological studies on Mars before any crewed missions arrive. Its purpose is also to address several foregone conclusions raised at NASA’s 2019 Conference (Extant Life on Mars: What’s Next?) held in Carlsbad, New Mexico. During this conference, it was generally agreed that scientists have good reason to suspect the following about life on Mars: Life started on Mars using the same geo-organic chemistry that started life on Earth. Martian life persists today on Mars, in near-surface ice, low elevations, and caves, all with transient liquid brines, environments that today on Earth host microbial life. Martian life must use informational polymers (like DNA); Darwinian evolution requires these, and Darwinian evolution is the only way matter can organize to give life. While Martian “DNA” may differ (possibly radically) in its chemistry from Terran DNA, the “Polyelectrolyte Theory of the Gene” limits the universe of possible alien DNA structures. Those structures ensure that Martian DNA can be concentrated from Martian water, even if very highly diluted, and even if Martian “DNA” differs from Earth DNA. On Mars, as it exists today, information polymers cannot be generated without life (unlike other less reliable biosignatures such as methane), ensuring that life will not be “detected” if it is not present (the “false positive problem”). Citing a previous study by SETI Institute senior scientist John D. Rummel and NASA Planetary Protection Officer (PPO) Catherine A. Conley, Benner and his team note that there are several fallacies when it comes to proposed efforts to search for extant evidence of Martian life. Addressing the planetary protection policy of the Committee on Space Research (COSPAR), Rummel and Conley concluded that there are four significant “shortcomings in their plans to look for evidence of life on Mars.” First, they addressed the contention that appropriate levels of spacecraft cleanliness are unaffordable. Second, they challenged claims that there are major risks in assuming life could be identified through nucleic acid sequence comparison, especially if those sequences are obtained from a “Special Region” contaminated with Earth life. They also challenge the contention that present-day exploration by “dirty robots” is preferable to the possibility of contamination spread by future human exploration and that the potential effects of contaminating resources and environments essential to future human missions to Mars were not being addressed. Based on these considerations, Rummel and Conley concluded that scientists did not consider the detection of extant life on Mars “a high priority.” Graphic depiction of the Agnostic Life System (ALF) to screen for introduced and alien life. Credit: Steven Benner According to Benner and his colleagues, the purpose of this NIAC project is to change this view before the arrival of crewed missions, which will undoubtedly complicate the search for indigenous Martian life. Therefore, the plans for crewed missions in the coming decades place a very strict deadline on the search or life on Mars, but also offer an opportunity that can be exploited. In particular, Benner and his team indicate how mission proposals emphasize the need for in-situ resource utilization (ISRU), especially where near-surface water ice is concerned. As they wrote: “Propellant (methane and oxygen) will be generated from that water and atmospheric carbon dioxide for the return trip back to Earth. That water ice will be mined on the scale of tens to hundreds of tons. Further, to maximize the likelihood of safe return of the crew to Earth, robotic operations that mine tons of near-surface water ice will be in place before the first human astronauts arrive. Thus, water mined in preparation for human arrival is correctly seen as an extremely large-scale astrobiological sample, far larger than dry cached rocks.” The mined water ice, they claim, will contain dust deposited over time by Martian dust storms, allowing scientists to obtain information about the accessible surface of Mars. Therefore, the massive sample of water ice will enable a highly sensitive survey of the Martian surface for potential signs of life. The ALF system will allow for the extraction of genetic polymers – be they alien or the result of contamination from robotic missions. The ALF system also offers tools to conduct partial in-situ analysis of any polymers that dissociate in water (polyelectrolytes). According to Benner, the system is called “agnostic” because of how it “exploits what synthetic biology taught us about the limited kinds of Darwinian genetic molecules.” Since it is an add-on system, including an ALF system represents a negligible burden in terms of mass and energy to any existing mining operation. Despite that, it will allow for science operations that will establish a strict lower limit on the amount of biomaterial that is accessible on the Martian surface and will do so before a human presence is established on Mars. As Benner and his team summarized, the system will also be useful on other bodies humanity hopes to explore for signs of life (and possibly settle) someday. “[I]t will do so before Homo sapiens becomes a multiplanetary species. And “multiplanetary” is the correct term,” they wrote. “This add-on ALF system can be used on all celestial bodies where water will be mined to search for and analyze life, indigenous or introduced, Earth-like or alien. This includes Europa, Enceladus, the Moon, and exotic locales on Earth.” Further Reading: NASA The post NASA Selects New Technology to Help Search for Life on Mars appeared first on Universe Today.

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Boosting Thermal Energy Storage with Polyelectrolytes - Technology Org

New Post has been published on https://thedigitalinsider.com/boosting-thermal-energy-storage-with-polyelectrolytes-technology-org/

Boosting Thermal Energy Storage with Polyelectrolytes - Technology Org

Oak Ridge National Laboratory researchers demonstrated that an additive made from polymers and electrolytes improves the thermal energy storage performance and stability of salt hydrate phase change materials, or PCMs, a finding that could advance their integration into carbon-reducing heat pumps.

ORNL researchers found that a polyelectrolyte additive can improve the stability and performance of a salt hydrate PCM, enhancing the potential for use in heat pumps. Credit: ORNL, U.S. Dept. of Energy

PCMs absorb and release energy when changing between solid and liquid forms, making them suitable for heating and cooling applications. They’re also prone to phase separation and instability, which limits thermal energy storage capacity.

In an ORNL-led study, eight different polymer mixtures were added to the PCM. Synthetically made and naturally occurring polymers were tested. Results showed that the polyelectrolyte additive, dextran sulfate sodium, can achieve the best performance.

“The pure salt hydrate PCM cannot sustain up to 10 melt-freeze cycles, but with the additive, stability is retained after 150 cycles,” ORNL’s Damilola Akamo said.

“This determination will help inform the design of thermal storage materials in low-carbon-emitting heat pumps for residential and commercial buildings.”

Source: Oak Ridge National Laboratory

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Scientists use NMR spectroscopy to map polyelectrolyte distribution and solve a century-old chemistry riddle

When two solutions of oppositely charged polymers (polyelectrolytes) are mixed, phase separation occurs and leads to the formation of a polymer-rich phase and a supernatant phase. The precise distribution of all components, that is polyelectrolytes and counterions, had not yet been determined. Researchers at the University of Twente can now measure quantitatively exactly where these components are distributed using nuclear magnetic resonance (NMR) spectroscopy. For more than 90 years, chemists have been fascinated by polyelectrolyte complexes that form after solutions of two oppositely charged polymers are mixed. A better understanding of these complexes is crucial for the development of materials based on these complexes.

Read more.

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Water Clarifiers Market Depth Analysis, Growth Strategies & Comprehensive Forecast 2022 to 2032

The global water clarifiers market is expected to grow at a 5.4% CAGR during the forecast period, with a revenue of US$ 6,980.2 Million in 2022 and a revenue of US$ 11,854.3 Million by 2032.

Water clarifiers are expected to see increased demand due to their high structural strength, high volume-to-area ratio, ease of sludge removal, and ability to maintain heat level. Water clarifier installation costs, on the other hand, are expected to limit market growth.

Clarifiers are sedimentation-based settling tanks that remove suspended solids from water. This is done to improve the quality of the water in order to meet the needs of various water uses. Water clarifiers are mechanical water treatment tanks that discharge concentrated impurities from the tank’s bottom. Scum is the layer of debris or foam on the water’s surface, and scum is the layer of debris or foam on the water’s surface.

A chemical-injection package introduces various chemicals into water to improve the water treatment process. These chemicals, such as ferric sulphate and polyelectrolytes, are essentially coagulation and flocculation reagents; these partials join with the preexisting particle to form denser particles known as flocs.

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Furthermore, because high-density flocs settle faster and are more stable in nature, clarifiers can easily and efficiently separate solid particles.

Because of its low operating and maintenance costs and high output, this arrangement is used for various liquid-solid separations in industries such as paper and pulp, food and beverage, oil and gas, and chemical and fertiliser. Clarifiers are commonly used in municipal wastewater treatment to reduce suspended solids and BOD levels. (Biological Oxygen Demand).

There are several benefits of halogenated water treatment chemicals. They enhance the efficiency of skim tanks, hydro cyclones, filters, centrifuges, etc. Halogenated water treatment chemicals have various types of applications, such as in water processing, corrosion inhibition, irrigation water, oxygen scavenging, drinking water, antifoaming, and scale inhibition, among others.

Water Clarifiers Market: Dynamics 

The primary factor responsible for driving the global water clarifiers market is strict regulations pertaining to conservation of water and water quality. Other than this increasingly stringent regulations, particularly in the areas of water reuse and wastage will also affect the global water clarifiers market positively. Also, declining freshwater resources have compelled the management for the use of water treatment arrangement, which will also boost the market for water clarifiers.

However, the high cost of clarifiers and availability of alternative such as chemicals are expected to restrain the market growth of water clarifiers. Municipal and industrial regulations, rapid industrialization and use of fresh water in various activities are factors impacting the global water clarifiers market directly.

Municipal and industrial regulations also promote awareness programs for consumers to minimize water wastage. Fresh water can be used in various industrial applications (e.g., in pulp & paper manufacturing, metal & mining, power, semiconductors, oil & gas, and textiles) and domestic applications (e.g., washing, cooking, etc.).

Water Clarifiers Market: Regional Outlook 

North America holds a comparatively high market share, being a profitable market for water clarifiers. North America is followed by Europe. However, Asia Pacific is expected to have high growth over the forecast period owing to the growing demand for pure and fresh water.

Rest of the world market is estimated to account for a relatively small share of the water clarifiers. Also, depletion of freshwater resources across the globe can act as an opportunity for the global water clarifiers market.

Water Clarifiers Market: Key Participants 

Examples of some of the key market participants operating across the value chain of the global water clarifiers market are:

SUEZ Group

Pentair plc

Veolia Water Technologies

Evoqua Water Technologies LLC

Aquatech International Corporation

Murugappa Group

Hydro International

Monroe Environmental Corp.

Envirodyne Systems Inc.

WesTech Engineering, Inc.

Parkson Corporation

The research report presents a comprehensive assessment of the market and contains thoughtful insights, facts, historical data, and statistically supported and industry-validated market data. It also contains projections using a suitable set of assumptions and methodologies. The research report provides analysis and information according to market segments such as geographies, application, and industry.

The report covers exhaust analysis on

Market Segments

Market Dynamics

Market Size

Supply & Demand

Current Trends/Issues/Challenges

Competition & Companies involved

Technology

Value Chain

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Key Segments Profiled In The Water Clarifiers Market Survey

By Design:

Circular Water Clarifiers

Rectangular Water Clarifiers

By Material Type:

Carbon Steel

Stainless Steel

Fibre-Reinforced Plastic

By Application:

Pre-Treatment

Portable Water Treatment

Waste Water Treatment

Mining

By End User:

Municipal

Industrial

Paper & Pulp Industry

Food & Beverage Industry

Oil & Gas Industry

Iron & Steel

Chemical & Fertilizer

Mining & Mineral

Power Industry

By Region:

North America

Latin America

Asia Pacific

MEA

Europe