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#Ferric Chloride Market#Ferric Chloride Market size#Ferric Chloride Market share#Ferric Chloride Market trends#Ferric Chloride Market analysis
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Anhydrous Ferric Chloride Market Expansion: Strategic Developments
The Anhydrous Ferric Chloride Market is a critical segment of the global chemical industry that plays a significant role in various applications, from wastewater treatment to electronics manufacturing. Anhydrous ferric chloride, also known as ferric trichloride (FeCl3), is a vital chemical compound with a range of applications that require its high purity and stability. In this article, we will explore the Anhydrous Ferric Chloride Market, its growth prospects, key drivers, and emerging trends.
Market Overview
Anhydrous ferric chloride market is a versatile chemical compound that finds application in various industries, such as water treatment, electronics, and pharmaceuticals. Its demand is primarily driven by the growing need for water purification and the ever-expanding electronics sector. Anhydrous ferric chloride is known for its effectiveness in water treatment, especially for the removal of impurities, organic matter, and heavy metals, making it an essential component in the treatment of wastewater and industrial effluents. Furthermore, it is used in the electronics industry for etching printed circuit boards (PCBs) and manufacturing semiconductors.
Key Market Drivers
Water and Wastewater Treatment: The demand for clean and safe water is increasing globally. Anhydrous ferric chloride plays a crucial role in the purification of water, making it safe for consumption and industrial use. As urbanization and industrialization continue to grow, the need for efficient wastewater treatment processes is driving the demand for anhydrous ferric chloride.
Electronics Industry: The electronics industry is a significant consumer of anhydrous ferric chloride. With the growing use of electronic devices and the development of advanced technologies, such as 5G and IoT, the demand for printed circuit boards (PCBs) is on the rise. Anhydrous ferric chloride is used in PCB etching processes, and its quality is paramount for ensuring the reliability and performance of electronic devices.
Pharmaceutical and Chemical Manufacturing: Anhydrous ferric chloride also finds application in pharmaceuticals and chemical manufacturing processes. It is used as a catalyst in several chemical reactions, contributing to the growth of these industries.
Emerging Economies: Emerging economies, particularly in Asia-Pacific, are witnessing rapid industrialization and urbanization. This leads to increased wastewater generation, driving the demand for anhydrous ferric chloride in water treatment applications.
Market Segmentation
The Anhydrous Ferric Chloride Market can be segmented based on application, end-user industry, and region.
By Application:
Water and Wastewater Treatment
Electronics Manufacturing (PCB Etching)
Pharmaceuticals
Chemical Manufacturing
Others
By End-User Industry:
Municipal
Industrial
Electronics
Pharmaceuticals
Chemicals
Others
By Region:
North America
Europe
Asia-Pacific
Latin America
Middle East and Africa
Emerging Trends
The Anhydrous Ferric Chloride Market is constantly evolving, and several trends are shaping its growth:
Product Innovations: Manufacturers are focusing on developing high-purity anhydrous ferric chloride with improved stability, making it suitable for various applications. This includes reducing impurities and heavy metal content in the product to meet the stringent requirements of industries like electronics and pharmaceuticals.
Green and Sustainable Practices: The industry is witnessing a shift toward greener and more sustainable production processes. This includes efforts to minimize waste generation and reduce environmental impact, aligning with the global push for sustainable development.
Strategic Partnerships: Manufacturers are increasingly forming strategic partnerships with end-users to ensure a consistent supply of high-quality anhydrous ferric chloride. These partnerships often involve long-term contracts and collaborative research and development efforts to meet specific industry demands.
Market Expansion in Developing Economies: With the rapid industrialization and urbanization in emerging economies, market players are expanding their presence in regions like Asia-Pacific and Latin America. This expansion includes setting up production facilities and distribution networks to meet the growing demand.
Regulatory Compliance: Stringent regulations and environmental standards related to the use and disposal of chemicals are driving the industry to invest in compliance measures and sustainable practices.
Challenges
Despite the promising growth prospects, the Anhydrous Ferric Chloride Market faces several challenges, including:
Environmental Concerns: The disposal of spent ferric chloride solutions from the etching process in the electronics industry can be environmentally problematic. Efforts are being made to develop more eco-friendly alternatives.
Volatility in Raw Material Prices: The prices of raw materials used in the production of anhydrous ferric chloride, such as iron ore and hydrochloric acid, can be volatile, impacting production costs.
Competition from Substitutes: Some applications are exploring substitutes for anhydrous ferric chloride, which can pose a threat to market growth.
Conclusion
The Anhydrous Ferric Chloride Market is poised for significant growth driven by the increasing demand for clean water, the expansion of the electronics industry, and the growth of pharmaceutical and chemical manufacturing. To stay competitive, manufacturers are focusing on product innovation, sustainable practices, and strategic partnerships with end-users. As emerging economies continue to develop, the demand for anhydrous ferric chloride is likely to rise, offering new opportunities for market players. However, the industry also faces challenges related to environmental concerns and raw material price volatility. It is essential for companies in the Anhydrous Ferric Chloride Market to adapt to these trends and overcome challenges to maintain their competitiveness in the global market.a
#Anhydrous Ferric Chloride Market Share#Anhydrous Ferric Chloride Market Growth#Anhydrous Ferric Chloride Market Demand#Anhydrous Ferric Chloride Market Trend#Anhydrous Ferric Chloride Market Analysis
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Navigating the Waves: Unveiling the Dynamics of the Water Treatment Chemicals Market
In the vast landscape of water treatment, chemicals play a pivotal role in ensuring the purity and safety of our water supply. The water treatment chemicals market, a critical component of this industry, stands as a cornerstone in addressing diverse challenges. Let's embark on a journey to unravel the intricacies of this dynamic market.
How Big is the Water Chemical Market
The water treatment chemicals market has witnessed remarkable growth in recent years. As of 2023, the global market size is estimated to be USD 36.7 billion, projected to reach USD 43.9 billion in 2028, at an impressive CAGR of 3.6%. This upward trajectory underscores the increasing awareness regarding water quality and the surge in demand for treated water across various end-use industries. Stringent water and wastewater regulations further propel the rapid growth of this vital market.
Major Chemicals in Water Treatment
Various chemicals contribute to the effectiveness of water treatment processes. Among these, chlorine, ozone, alum, ferric chloride, and activated carbon stand out as key players. Each chemical serves a specific purpose, from disinfection and coagulation to pH adjustment and corrosion control. The synergy of these chemicals ensures the removal of contaminants and pathogens, safeguarding the quality of our water resources.
Key Market Players
Prominent players like Kemira OYJ (Finland), BASF SE (Germany), Ecolab Inc. (U.S.), Dow Inc. (U.S.), and Solenis LLC (U.S.) have established a robust foothold in the water treatment chemicals market. Their strategic initiatives, including expansions, joint ventures, and mergers & acquisitions, contribute significantly to their market dominance.
Best Chemical Treatment for Water
Determining the "best" chemical treatment depends on the specific water source and the contaminants it harbors. For disinfection, chlorine and ozone are often preferred, while alum and ferric chloride excel in coagulation. Activated carbon proves effective in removing organic impurities. The selection process involves a careful analysis of water composition, highlighting the need for tailored solutions to achieve optimal results.
Market Trends in Water Treatment
Keeping a pulse on market trends is crucial for stakeholders in the water treatment chemicals domain. The industry is witnessing a notable shift towards sustainable and eco-friendly solutions. Innovations in advanced oxidation processes and the integration of smart technologies for water monitoring are gaining traction. Additionally, the surge in water recycling and reuse initiatives is reshaping the market landscape, reflecting a growing emphasis on water sustainability.
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As we navigate the waves of the water treatment chemicals market, it becomes evident that its significance extends beyond commercial interests. It's a vital force in preserving our most precious resource – water. The market's growth, fueled by technological advancements and a global commitment to environmental stewardship, promises a future where access to clean water is a reality for all.
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Understand the Spiderman of the Microverse: XLD Agar
Learning XLD’s X, Y, and Z can be challenging, but not with us. In the previous article, we discussed the various needs and applications of XLD (click on the link if you haven’t read it). In this, we’ll talk more about its composition, principle, observations, and modifications.
What is the composition of XLD Agar?
It was developed by Welton Taylor in 1965. XLD stands for Xylose Lysine Deoxycholate Agar and is a bright pink or red-colored solid opalescent gel medium. Knowing its key contents will help you better understand its principles and differentiating abilities.
Ingredients g/l
Yeast Extract 3 g
L-lysine 5 g
Xylose 3.75 g
Lactose 7.5 g
Sucrose 7.5 g
Sodium Deoxycholate 1 g
Sodium Chloride 5 g
Sodium Thiosulfate 6.8 g
Ferric Ammonium Citrate 0.8 g
Phenol red 0.08 g
Agar 12.5 g
Distilled water 1 Litre
Yeast extract provides the medium with nutrients, vitamins, peptides, and other essential growth factors. Xylose, lactose, and sucrose are rich sources of fermentable carbohydrates. For the detection of fermentation of these carbs in the medium, a pH indicator, phenol red, is added. The addition of xylose to the medium accounts for the differentiation of various fermenting enteric bacteria from species of Shigella that do not ferment it. Most enteric pathogens, including Salmonella,can ferment xylose, which results in the formation of acidic byproducts and a change in the color of the medium from pink to yellow, whereas Shigella colonies remain red. In some cases, Salmonella imitates Shigella colonies and gives red colonies, which are then differentiated by the production of Hydrogen sulfide gas by the metabolism of thiosulfate and give black centers. Enterobacteria such as E. coli can ferment lactose in the medium.
XLD Agar’s composition can be adjusted according to one’s needs and choices and is hence available in many different variations, but the basic principle remains the same.
Observation and Inferences on XLD Agar:
Observation Inferences
Red colonies, some with black centers Salmonella spp.
Red colonies Shigella spp.
Yellow to orange colonies Coliforms
Pink, flat, and rough colonies Pseudomonas aeruginosa
While learning about XLD Agar, a question that must have run through your thoughts would’ve been, “Where is XLD Agar available?” Let’s look into it.
Where is XLD Agar available?
XLD Agar is available on the market as Dehydrated Culture Media in a number of variations according to one’s requirements, including plant-based and animal-based options.
These Dehydrated Culture Media can be dissolved in distilled water according to the concentration mentioned on the package, autoclaved, poured, and used.
TM Media, the microbiology division of Titan Biotech Ltd., offers a wide range of XLD Agar as Dehydrated Culture Media in a number of variations suitable for all your needs, operations, and specific requirements.
The product range includes the following:
XLD AGAR MODIFIED (as per ISO) TM 1621: XLD Agar, modified, is a selective and differential medium for the isolation of gram-negative enteric pathogens from clinical specimens or food products. It is a modification of the original formulation of Taylor that allows selective isolation of Salmonella typhi, E. coli, Salmonella enteritidis, Salmonella typhimurium, and Shigella flexneri. It is recommended by the ISO committee, and the composition and performance criteria of this medium are as per the specifications laid down in ISO 6579-1:2017.
XLD AGAR (VEG.) TMV 492: Xylose Lysine Deoxycholate Agar (Veg) is prepared by replacing Sodium Deoxycholate with synthetic detergent No.III, which makes the medium free of BSE/TSE risks. Xylose Lysine Deoxycholate Agar (Veg) is suitable for the isolation and identification of enteric pathogens from stool samples.
XLD AGAR (as per USP/EP/JP/BP) TMH 112: This medium is employed for pharmaceutical testing and non-sterile product testing for the detection of Salmonella after enrichment in Rappaport VassialidiasSalmonella Enrichment Broth in accordance with the harmonized method of USP/EP/BP/JP/IP.
XLD AGAR TM 1448: It is used for pharmaceutical testing and nonsterile product testing for the detection (or absence) of Salmonella after enrichment in Rappaport Vassialidias Salmonella Enrichment Broth in accordance with IP.
XLD AGAR TM 492: XLD Agar exhibits increased selectivity and sensitivity as compared to other plating media, e.g., SS Agar, EMB Agar, and Bismuth Sulphite Agar. The media formulation does not allow the overgrowth of other organisms over Salmonella and Shigella. Samples suspected of containing enteric pathogens, along with other mixed flora, are initially enriched in Modified Semisolid RV Medium Base.
Why choose TM Media’s XLD Agar?
TM Media’s superior-quality and diverse Microbiological Culture Media are certified by ISO, CE, GMP, FSSAI, and FSSC.
TM Media provides unrivaled convenience, dependability, and efficacy, as well as versatility and flexibility, by manufacturing a contamination-free medium with a longer shelf life and reproducible outcomes.
Conclusion:
XLD Agar is a selective and differential agar medium primarily used for the isolation and differentiation of different enteropathogenic organisms that are well-known to cause diseases like Food poisoning, Gastroenteritis, and other Digestive illnesses.
By choosing TM Media, consumers invest in precision, quality, and excellence. TM Media's product portfolio includes over 2000 Dehydrated Culture Media, along with Ready-to-Use Culture Media, Biological Media Bases, Media Supplements, Lab Chemicals, and many more.
#XLD Agar#dehydrated culture media#food microbiology#clinical microbiology#Microbiology#Xylose Lysine Deoxycholate Agar
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A detailed overview of the MEA ferric chloride market is presented in this research report. The overview has been prepared keeping in mind certain key parameters such as global trends, industry insights, growth drivers, industry ecosystem analysis and market segmentation.
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Iron Ore Pellets Market Will Hit Big Revenues In Future | Biggest Opportunity Of 2023
Latest edition released by AMA on Global Iron Ore Pellets Market to regulate the balance of demand and supply. This intelligence report on Iron Ore Pellets includes Investigation of past progress, ongoing market scenarios, and future prospects. Data True to market on the products, strategies and market share of leading companies of this particular market are mentioned. It’s a 360-degree overview of the global market’s competitive landscape. The report further predicts the size and valuation of the global market during the forecast period.
Some of the key players profiled in the study are:
Vale S.A (Brazil)
Luossavaara-Kiirunavaara Aktiebolag (LKAB) (Sweden)
Metso Oyj (Finland)
Arya Group Of Companies (India)
Rio Tinto (United Kingdom)
Bhp (Australia)
Fortescue Metals Group Ltd (Australia)
Atlas Iron (Australia)
Simec Group (United Kingdom)
Cleveland-Cliffs, Inc. (United States)
Pelletizing Process Involves Grounding & Mixing Very Finely Particles Of Iron Ore Fines Of Size Less Than 200 Mesh With Additives Like Bentonite And Then Shaping Them Into Oval/Spherical Lumps With The Help Of A Pelletizer And Hardening The Balls By Firing With A Fuel. Iron Ore Pellets Are Important Source Of Iron Used Mainly For The Manufacturing Steel. Iron Ore Pellets Provides Better And Uniform Permeability, Owing To Their Spherical Shape And Open Pores, Resulting In Smoother Furnace Operation. Iron Pellets Provide Higher Strength, Higher Porosity, & Uniform Chemical Composition
Market Trends: Surge In The Usage Of Iron Ore Pellets In Various End Use Industries Owing To Industrialization Especially In The Growing Economies Like China, India, & Brazil
Opportunities: There Is an Increased Opportunity for the Mining Companies for the Extraction of Raw Materials Required In the Production of Iron Ore Pellets
There Are Prospects for Utilising Iron Ore Pellets in Automotive Industry
Market Drivers: Growth in the Steel Industry for Manufacturing Products Like Bridges, Cars, Planes, Bicycles, & Household Appliances
Increase in the Number of Various Chemical Industries Using Iron Ore Pellets Producing Different Products like Ferric Sulfate, Ferric Chloride, & Water Treatment Processes
Challenges: The Presence of the Substitute Materials May Pose a Challenge
Presented By
AMA Research & Media LLP
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Flocculant and Coagulant Market Trends | Segmentation, Outlook, Industry Report to 2032
Coagulant chemical of positive electrical charge on addition neutralizes the negative electrical charges on the particles thus disrupts the forces which keeps collides apart. The global flocculation and coagulation market is expected to grow during the forecast period with the growth of end use industries.
In organic coagulants polyamine and polyDADMAC are the most widely used coagulants in water treatment process. Flocculation and coagulation is a chemical cleaning treatment for the waste water generally undertaken before the sedimentation process thus aiding in enhancing the process to remove particles from the water.
Global Flocculant and Coagulant Market: Drivers and Restraints
The global flocculant and coagulant market is primarily driven by the increasing demand for chemicals in municipal water treatment stations. The stringent government regulations towards water usage for public health also drives the global flocculant and coagulant market. The increasing population is also one of the factor driving the global flocculant and coagulant market.
Global Flocculant and Coagulant market: Key Players
Some of the key players identified in the global flocculant and coagulant market includes:
BASF SE
Ecolab Inc
Solvay SA
SNF (UK) Ltd
Cytec Industries Inc.
Akferal
Kemira Oyj
Jayem Engineers
TRIO Chemicals & Allied Products
For Critical Insights, Request for Sample @
https://www.futuremarketinsights.com/reports/sample/rep-gb-2266
Key Segments Profiled in the Flocculant and Coagulant Industry Survey
Flocculant and Coagulant Market by Type:
Coagulant
Organic coagulants
Polyamine
PolyDADMAC
Inorganic coagulants
Aluminum Sulfate (Alum)
Aluminum Chloride
Polyaluminum Chloride & Aluminum Chlorohydrate
Ferric Sulphate and Ferrous Sulphate
Ferric Chloride
Organic and Inorganic blend
Flocculant
Cationic Flocculants
Anionic Flocculants
Flocculant and Coagulant Market by Application:
Flocculant and Coagulant for Power Generation
Flocculant and Coagulant for Chemical Processing
Flocculant and Coagulant for Water & Waste Water
Flocculant and Coagulant for Municipal Water Treatment
Flocculant and Coagulant for Dairy Waste Water
Flocculant and Coagulant for Others
Flocculant and Coagulant Market by Others:
Flocculant
Cationic Flocculants
Anionic Flocculants
Global Flocculant and Coagulant Market: Region Wise Outlook
The global flocculant and coagulant market is divided into seven regions, namely North America, Latin America, Asia Pacific excluding Japan (APEJ), Western Europe, Eastern Europe, Japan and Middle East and Africa (MEA). APAC holds major share in the consumption of flocculant and coagulant in the global flocculant and coagulant market.
This is attributed by growing industrial sectors in countries such as China, India, South Korea, and Taiwan. The flocculant and coagulant market in North America followed by Europe are matured and expected to show moderate growth rate during the forecast period.
Browse the latest Market Reports@
https://www.futuremarketinsights.com/category/chemicals-and-materials
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Know About Etching Techniques in PCB Assembly Process
The complexity of circuit boards has increased in terms of design and circuitry. For the circuit board to function normally and avoid shorting or signal interference, it is necessary to strip of any unwanted conductive elements from its surface. PCB etching is a process wherein excess copper or particles remaining on the board are removed. After this, only the circuit portions that are needed remain on the board. This is why etching is an important step of the total PCB fabrication process. The PCB etching process is of two types – wet and dry etching. This post discusses these PCB etching processes in detail.
Types of PCB Etching Techniques
Before PCB etching is applied, the design file image is applied onto the board using photolithography, so that the layout is clearly traced on the board. The extent of etching is decided largely on the PCB design. So, selected portions of the board are etched or scraped with the help of certain chemicals. Regardless of the safety of these chemicals, the process must be performed in a well-ventilated area and wearing the required personal protective equipment (PPE). This section introduces you to the wet and dry PCB etching in detail.
Wet Etching: In this process, a wet solution, either acidic or alkaline, is used to clean the board surface. This depends on the type of boards such as rigid, flexible, or a combination of both. Cupric chloride, ferric chloride, alkaline ammonia, sulfuric acid, and so on are some widely used etching solutions for PCBs. Depending on the etch rate required, solutions such as cupric acid are formulated along with hydrochloric acid. This acidic solution is non-reactive with the photoresist material on the board and hence does not corrode. Acidic etching is less expensive than alkaline etching. Alkaline etching is typically used for outer layers with tin, nickel, or gold plating. Wet etching process is performed in a high-pressure chamber where the solution is sprayed.
Pros and Cons of Wet Etching
Here are some pros and cons of wet etching.
· This is a cost effective and flexible technique.
· It offers evenness to the board surface.
· One can select the portion on the board and start the etching process, after which it will stop automatically without damaging any other portions.
· Some chemical solutions may not be that suitable for PCBs as they may produce hazardous byproducts as part of the reaction.
· This is isotropic etching.
Dry Etching: This process though flexible is more complex and expensive compared to wet etching. This is done through machines and without using any chemical solutions. Also called as reactive ion etching (RIE), it is known for the precision it offers. It uses plasma in a vacuum environment that wipes off all the excess copper and other particles on the board surface. Iron sputtering is also done using laser.
Pros and Cons of Dry Etching
Here are some pros and cons of dry etching.
· Laser technique offers excellent precision and surface uniformity.
· This is anisotropic technique.
· While this technique as such is slightly expensive because of the equipment, the chemicals are quite cost effective.
· There may be challenges in etching underlying materials.
If you are a manufacturer of complex electromechanical or electronic equipment, the PCB design you may require would be just as intricate. Ensure you partner with a reliable and experienced PCB assembly services provider. Also, make sure they offer PCB etching services too. It is crucial that they understand your requirements well and customize based on that. This is because the functioning of your manufactured device largely depends on the PCBA inside. Sierra Assembly has several years of market presence and a strong experience in PCB assembling of even the most complex PCBAs.
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Iron Ore Pellets Market Expectation Surges with Rising Demand and Changing Trends
Latest business intelligence report released on Global Iron Ore Pellets Market, covers different industry elements and growth inclinations that helps in predicting market forecast. The report allows complete assessment of current and future scenario scaling top to bottom investigation about the market size, % share of key and emerging segment, major development, and technological advancements. Also, the statistical survey elaborates detailed commentary on changing market dynamics that includes market growth drivers, roadblocks and challenges, future opportunities, and influencing trends to better understand Iron Ore Pellets market outlook.
List of Key Players Profiled in the study includes market overview, business strategies, financials, Development activities, Market Share and SWOT analysis are:
Vale S.A (Brazil)
Luossavaara-Kiirunavaara Aktiebolag (LKAB) (Sweden)
Metso Oyj (Finland)
Arya Group Of Companies (India)
Rio Tinto (United Kingdom)
Bhp (Australia)
Fortescue Metals Group Ltd (Australia)
Atlas Iron (Australia)
Simec Group (United Kingdom)
Cleveland-Cliffs, Inc. (United States)
Pelletizing Process Involves Grounding & Mixing Very Finely Particles Of Iron Ore Fines Of Size Less Than 200 Mesh With Additives Like Bentonite And Then Shaping Them Into Oval/Spherical Lumps With The Help Of A Pelletizer And Hardening The Balls By Firing With A Fuel. Iron Ore Pellets Are Important Source Of Iron Used Mainly For The Manufacturing Steel. Iron Ore Pellets Provides Better And Uniform Permeability, Owing To Their Spherical Shape And Open Pores, Resulting In Smoother Furnace Operation. Iron Pellets Provide Higher Strength, Higher Porosity, & Uniform Chemical Composition
Key Market Trends: Surge In The Usage Of Iron Ore Pellets In Various End Use Industries Owing To Industrialization Especially In The Growing Economies Like China, India, & Brazil
Opportunities: There Is an Increased Opportunity for the Mining Companies for the Extraction of Raw Materials Required In the Production of Iron Ore Pellets
There Are Prospects for Utilising Iron Ore Pellets in Automotive Industry
Market Growth Drivers: Growth in the Steel Industry for Manufacturing Products Like Bridges, Cars, Planes, Bicycles, & Household Appliances
Increase in the Number of Various Chemical Industries Using Iron Ore Pellets Producing Different Products like Ferric Sulfate, Ferric Chloride, & Water Treatment Processes
Challenges: The Presence of the Substitute Materials May Pose a Challenge
The Global Iron Ore Pellets Market segments and Market Data Break Down by Type (Hematite, Magnetite, Others), Application (Steel Production, Iron-Based Chemicals, Others), Balling Technology (Balling Drum, Balling Disc), Pelletizing Process (Grate Kiln (GK), Travelling Grate (TG), Others)
Presented By
AMA Research & Media LLP
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The report includes the analysis of impact of COVID-19 lock-down on the revenue of market leaders, followers, and disrupters. Since lock down was implemented differently in different regions and countries, impact of same is also different by regions and segments. The report has covered the current short term and long term impact on the market, same will help decision makers to prepare the outline for short term and long term strategies for companies by region.
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TS Saline Agar
TS Saline Agar (Triple Sugar Saline Iron Agar) is a dehydrated culture medium used for the identification of Vibrio species, especially Vibrio parahaemolyticus. It contains three sugars (glucose, lactose, and sucrose), sodium chloride, and ferric ammonium citrate.
Applications:
-Identification of Vibrio species, especially Vibrio parahaemolyticus
-Differentiation of microorganisms on the basis of dextrose, lactose, and sucrose fermentation and hydrogen sulfide production
-Used in food microbiology to test for the presence of Vibrio parahaemolyticus, a foodborne pathogen that can cause diarrhea and vomiting
#TS saline agar#Triple Sugar Saline Iron Agar#dehydrated culture meedia#culture media#microbiology#pharmaceutical#food microbiology#TS Saline Agar Manufacturer
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