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MONO ETHYLENE GLYCOL ( MEG )
SOLVENT Mono Ethylene Glycol (MEG) là một chất lỏng trong suốt, không màu và có mùi đặc trưng.
Công thức hóa học: C2H6O2.
MEG có trọng lượng phân tử 62.07 g/mol và có điểm sôi khoảng 197-198°C.
Nó có tính hút ẩm mạnh và hòa tan hoàn toàn trong nước.
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Exploring Key Industrial Chemicals: MEG, DEG, and More
In the world of industrial chemicals, a few substances stand out due to their versatility and importance. Monoethylene glycol (MEG) and diethylene glycol (DEG) are two key players in this space, widely used in various applications, from antifreeze to plastics. Alongside them, bentonite powder, caustic soda, sodium bicarbonate, soda ash, and barite powder are crucial materials in different industries. Understanding their uses, suppliers, manufacturers, and pricing can help businesses make informed decisions.
What is Monoethylene Glycol (MEG)?
Monoethylene glycol (MEG) is a colorless, odorless liquid that is hygroscopic (absorbs moisture from the air). It plays a vital role in several industries, including:
Textiles: Used in fiber production.
Automotive: Acts as an antifreeze and coolant.
Packaging: Serves as a precursor to polyethylene terephthalate (PET) used in plastic bottles.
Key Characteristics of MEG
Chemical Formula: C2H6O2
Boiling Point: 197.3 °C (387.1 °F)
Viscosity: Low, making it easy to handle in manufacturing processes.
MEG Suppliers and Manufacturers
When sourcing MEG, it's essential to work with reliable suppliers and manufacturers. They ensure consistent quality and supply stability. Notable MEG suppliers include large chemical companies like BASF, LyondellBasell, and SABIC. These companies maintain high production standards and provide a range of grades to meet specific industry needs.
Pricing Trends for MEG
The price of monoethylene glycol can fluctuate based on factors like:
Feedstock costs: Ethylene and natural gas prices impact MEG production costs.
Demand-supply dynamics: Seasonal demands in the automotive and textile sectors can affect pricing.
As of recent reports, the average price of MEG stands around $1,000 to $1,200 per metric ton, but it varies by region and market conditions.
Understanding Diethylene Glycol (DEG)
Diethylene glycol (DEG) is another essential glycol, similar to MEG, but with a slightly different structure and applications. DEG is mainly used in:
Solvent applications: It's a great solvent for resins and oils.
Manufacturing plastics: Acts as a plasticizer.
Antifreeze formulations: Helps lower the freezing point of fluids.
Characteristics of DEG
Chemical Formula: C4H10O3
Boiling Point: 245 °C (473 °F)
Viscosity: Higher than MEG, making it useful in specific formulations.
DEG Suppliers and Manufacturers
Top DEG suppliers include reputable companies such as OxyChem, Shell, and Eastman Chemical Company. These manufacturers offer various grades of DEG tailored for specific applications.
Current Pricing for DEG
The price of diethylene glycol can be influenced by similar factors as MEG, including global oil prices and market demand. Currently, DEG prices hover around $1,200 to $1,500 per metric ton.
Exploring Bentonite Powder
Bentonite powder is a clay material derived from volcanic ash, known for its unique properties. It's commonly used in:
Drilling fluids: Helps stabilize boreholes in the oil and gas industry.
Cat litter: Absorbs moisture and odor.
Construction: Used as a binding agent.
Bentonite Suppliers and Manufacturers
Key players in the bentonite market include American Colloid Company, Wyo-Ben, and Bentonite Performance Minerals. They provide high-quality bentonite tailored for various applications.
Pricing Trends for Bentonite
The price of bentonite varies based on quality and application but typically ranges from $100 to $300 per ton.
Caustic Soda (Sodium Hydroxide)
Caustic soda, or sodium hydroxide, is a highly versatile chemical used across multiple industries, including:
Pulp and paper: For pulping wood.
Textiles: In the dyeing process.
Food processing: As a pH regulator.
Suppliers and Manufacturers
Major caustic soda suppliers include Olin Corporation, Dow Chemical, and Koch Industries. They ensure quality and consistent supply.
Pricing for Caustic Soda
The price of caustic soda can vary widely, currently falling between $300 and $500 per ton, depending on purity and supplier.
Sodium Bicarbonate
Sodium bicarbonate, or baking soda, is a common compound with applications in:
Food: As a leavening agent.
Pharmaceuticals: In antacids.
Cleaning products: For its mild abrasive properties.
Sodium Bicarbonate Suppliers
Top suppliers include Arm & Hammer, Solvay, and Tata Chemicals. These companies provide a range of sodium bicarbonate products for different uses.
Pricing Trends
The price of sodium bicarbonate typically ranges from $200 to $400 per ton based on market demand and purity levels.
Soda Ash (Sodium Carbonate)
Soda ash is essential in glass production, detergent manufacturing, and chemical processing. It's a key ingredient that:
Acts as a flux in glass making: Lowers the melting point of silica.
Used in water treatment: Helps control acidity.
Suppliers and Manufacturers
Major players in the soda ash market include Nirma Limited, OCI Chemical Corporation, and Ciner Resources. They offer both natural and synthetic soda ash.
Pricing for Soda Ash
The price of soda ash can fluctuate but generally sits between $150 and $250 per ton.
Barite Powder
Barite powder is a mineral used primarily in the oil and gas industry for drilling fluids. Its high density makes it valuable for:
Well drilling: Stabilizes boreholes and reduces fluid loss.
Paints and coatings: Provides a white pigment.
Suppliers and Manufacturers
Notable barite suppliers Petrochemical include Schlumberger, Halliburton, and Excalibar Minerals LLC. They ensure high-quality products for the drilling industry.
Current Pricing for Barite
The price of barite typically ranges from $100 to $200 per ton, depending on quality and processing.
Conclusion
Understanding the complexities of these industrial chemicals—MEG, DEG, bentonite powder, caustic soda, sodium bicarbonate, soda ash, and barite powder—helps businesses make better purchasing decisions. Each chemical serves critical roles across various industries, and knowing the key suppliers and pricing trends is essential for effective procurement strategies. By focusing on reliable suppliers and staying informed about market dynamics, businesses can optimize their operations and maintain a competitive edge.
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Market Insights and Forecast with Impact of COVID-19 (2023-2028)
New Post has been published on https://petnews2day.com/pet-industry-news/pet-financial-news/market-insights-and-forecast-with-impact-of-covid-19-2023-2028/
Market Insights and Forecast with Impact of COVID-19 (2023-2028)
ReportLinker
Executive Summary According to a research report published by Azoth Analytics, the Global Monoethylene Glycol Market was valued at USD 27. 2 Billion in the year 2022. The organic molecule mono ethylene glycol, commonly known as MEG, EG, 1, 2-ethanediol, or 1, 2-dihydroxyethane, has the chemical formula C2H6O2.
New York, Nov. 07, 2022 (GLOBE NEWSWIRE) — Reportlinker.com announces the release of the report “Global Monoethylene Glycol (MEG) Market (2022 Edition): Analysis By Application, End User, By Region, By Country (2022 Edition): Market Insights and Forecast with Impact of COVID-19 (2023-2028)” – https://www.reportlinker.com/p06360977/?utm_source=GNW
Currently, MEG is mainly produced from fossil fuels, using ethylene as the starting material, but now the market for bio-based MEG is growing strongly. This is largely driven by consumer desire for naturally derived products, the need to reduce carbon footprints and the increasing price volatility of petrochemical raw materials. The market for bio-based chemicals as a whole is growing at around 10% per annum and there is no doubt that the future of the MEG market will belong to bio-based MEG.
MEG is a clear, colourless liquid that has a slight viscosity, a sweet flavour, and almost no odour. It is largely utilized in the industry for the synthesis of polyester fibres and as a component in the creation of antifreeze, coolants, and de-icers since it is miscible with water, alcohol, and many other organic compounds.
On the basis of Application, Polyethylene terephthalate (PET) is the fastest-growing MEG Application and is expected to grow with a CAGR of 5.8% in the forecast period. On the basis of End Users, Textiles is one of the very significant end users of the MEG market in 2022. Due to their incredibly high demand for polyester fibre and polyethylene terephthalate, China and India are APAC’s top monoethylene glycol consumers.
Scope of the Report ? The report analyses the Monoethylene Glycol Market by Value (USD million).
? The report analyses the Monoethylene Glycol Market by Volume (Million Metric Tonnes).
? The report presents the analysis of the Monoethylene Glycol market for the historical period of 2018-2021 and the forecast period of 2023-2028.
? The report analyses the Monoethylene Glycol Market by Application (Polyester Fiber, Polyethylene terephthalate (PET), Antifreeze, Others).
? The report analyses the Monoethylene Glycol Market by End User (Textile, Plastic and Packaging, Automotive and Transportation, Others).
? The Global Monoethylene Glycol Market has been analysed by countries (United States, Canada, Germany, UK, France, Italy, China, India, Japan, South Korea).
? The key insights of the report have been presented through the frameworks of market share and recent developments. Also, the attractiveness of the market has been presented by region.
? Also, the major opportunities, trends, drivers and challenges of the industry have been analysed in the report.
? The report tracks competitive developments, strategies, Volume Analysis, Cost Analysis, mergers and acquisitions and new product development. The companies analysed in the report include BASF SE, Lyondellbasell Industries N.V., SABIC, Shell Chemicals, Lotte Chemicals, Dow Chemical Company, AkzoNobel, Exxon Mobil Corporation, Huntsman Corporation, and China National Petroleum Corporation.
Key Target Audience
? Monoethylene Glycol Industry Vendors
? Chemical Companies
? Consulting and Advisory Firms
? Government and Policy Makers
? Regulatory Authorities Read the full report: https://www.reportlinker.com/p06360977/?utm_source=GNW
About Reportlinker ReportLinker is an award-winning market research solution. Reportlinker finds and organizes the latest industry data so you get all the market research you need – instantly, in one place.
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CONTACT: Clare: [email protected] US: (339)-368-6001 Intl: +1 339-368-6001
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CAS No : 67-71-0 | Product Name : Dimethyl sulfoxide - Impurity A | Chemical Name : Dimethyl Sulfone | Pharmaffiliates
Buy highly pure Dimethyl sulfoxide - Impurity A, CAS No : 67-71-0, Mol.Formula : C2H6O2S, Mol.Weight : 94.13, from Pharmaffiliates. Login as registered user for prices, availability and discounts.
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The Versatility Of Monoethylene Glycol Makes It Useful In A Variety Of Industrial Applications
Monoethylene Glycol (also known as MEG, EG, 1,2-ethanediol, or 1,2-Dihydroxyethane) is a C2H6O2 organic compound. It is a slightly viscous liquid with a clear, colourless appearance and a sweet, odourless taste. It is miscible with water, alcohols, and many other organic compounds and is primarily used in the production of polyester fibres as well as antifreeze, coolants, aircraft anti-icers, and de-icers.
Read More @ https://medium.com/@poonamdcmi/monoethylene-glycol-has-wide-range-of-industrial-application-due-to-its-versatility-11115ae82617
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Major Reactions in Alberta
Production of methanol
Desulfurization
R-SH(g) + H2(g) = R-H(g) + H2S(g)
(Organic sulfur compounds are converted to hydrogen sulfide at 700K) Source: University of York
Gas reaction with Zinc Oxide
ZnO(s) + H2S(g) = ZnS(s) + H2O(g)
(Zinc Oxide reacts with the hydrogen sulfide from the desulfurization at 700K) Source: University of York
Methane reaction with water vapor
CH4(g) + H2O(g) = CO(g) + 3H2(g)
Source:University of York
Production of methanol
CO(g) + 2H2(g) = CH3OH(aq)
(Synthesis gas [gaseous carbon monoxide and hydrogen gas] reacts at elevated temperatures and pressure) Source: University of York
Production of ethylene glycol
Ethylene oxide production
C2H4(g) + O2(g) = CO2(g) + H2O(g)
(Ethylene is mixed with oxygen) Source: Siemens
Ethylene oxide production
CO2(g)+ C2H4Cl(g) = C2H4O(aq) +CO2(g) + H2O(g)
(Carbon dioxide reacts with chloro-ethylene to produce ethylene oxide, carbon dioxide, and water vapour using a silver-based catalyst at a temperature of 200-300°C and pressure of 10-20 bar) Source: Siemens
Ethylene glycol reaction
C2H4O(aq) + 10H2O(l) = C2H6O2(aq) + 9H2O(l)
(Ethylene oxide reacts with water in a 10 to 1 ethylene oxide to water ratio to produce ethylene glycol and water vapour) Source: Siemens
Polyethylene production
Using Butene
C2H4(g) + C4H8(g) = (C2H4)3(g)
(ethene is reacted with butene at 10-80 bar and 70-300°C to form polyethylene) Source: New Zealand Institute of Chemistry
Using Hexene
C2H4(g) + C6H12(g) = (C2H4)4(g)
(ethene is reacted with hexene at 10-80 bar and 70-300°C to form polyethylene) Source: New Zealand Institute of Chemistry
Using Octene
C2H4(g) + C8H16(g) = (C2H4)5(g)
(octene is reacted with hexene at 10-80 bar and 70-300°C to form polyethylene) Source: New Zealand Institute of Chemistry
Polyvinyl chloride (PVC) production
Producing ethylene dichloride
C2H4(aq) + Cl2(g) = C2H4Cl2(aq)
(Ethylene reacts with chlorine gas to produce ethylene dichloride) Source: Manufacturing Process. Vinyl Council Australia
Producing vinyl chloride monomer
C2H4Cl2(aq) = C2H3Cl(aq) + HCl(aq)
(Ethylene dichloride breaks down from being put in a high temperature reactor to form vinyl chloride and hydrochloric acid) Source: Vinyl Council Australia
Secondary reaction
2HCl(aq) + C2H4(aq) + 12O2(g) = C2H4Cl2(aq) + H2O(l)
(Hydrochloric acid reacts with ethylene in excess oxygen to form ethylene dichloride and water) Source: Vinyl Council Australia
C2H4Cl2(aq) + H2O(l) = C2H3Cl(aq) + HCl(aq) + H2O(l)
(Ethylene dichloride reacts with water to produce vinyl chloride, hydrochloric acid, and water) Source: Vinyl Council Australia
Net secondary reaction
C2H4(aq) + HCl(aq)+ 12O2(g) = C2H3Cl(aq) + H2O(l)
(Ethylene reacts with hydrochloric acid in excess oxygen to produce vinyl chloride and water) Source: Vinyl Council Australia
Producing polyvinyl chloride
nC2H3Cl(aq) = (C2H3Cl(aq))n
(Using polymerization, the vinyl chloride double bonds are opened up allowing neighboring monomers to connect) Source: Vinyl Council Australia
Urea formaldehyde production
Urea Production
Sulfur removal
ZnO(s) + H2S(g) = ZnS(s) + H2O(l)
(sulfur is removed from natural gas by using zinc oxide)
Source: Petrochem
Forming hydrogen
CH4(g) + H2O(l) = 3H2(g) + CO(g)
CH4(g) + 2H2O(l) = 4H2(g) + CO2(g)
CO(g) + H2O(l) = H2(g) + CO2(g)
(methane from the natural gas is converted to hydrogen)
Source: Petrochem
Forming ammonia
3H2(g) + N2(g) = 2NH3(g)
(nitrogen is mixed into the hydrogen to form a 3:1 ratio of hydrogen to nitrogen at a high temperature, using an iron catalyst to form ammonia)
Source: Petrochem
Carbon dioxide formation
CO(g) + H2O(l) = CO2(g) + H2(g)
(carbon dioxide is formed from the carbon monoxide formed in the hydrogen reaction)
Source: Petrochem
Ammonium carbamate formation
2NH3(g) + CO2(g) = NH2COONH4(g)
(ammonium is reacted with carbon dioxide in high pressure and temperature to form ammonium carbamate)
Source: Petrochem
Urea formation
NH2COONH4(g) = H2O(g) + NH2CONH2(g)
(ammonium carbamate forms into water vapour and urea at high temperature and pressure)
Source: Petrochem
Formaldehyde Production
2CH3OH(g) + O2(g) = 2CH2O(g) + 2H2O(g)
(methanol reacts with oxygen to produce formaldehyde and water)
Source: Inclusive Science and Engineering
Formation of urea formaldehyde
NH2CONH2(g) + CH2O(g) = C2H6N2O2(aq)
(urea reacts with formaldehyde for form urea formaldehyde in a condensation reaction)
Source: Britiannica
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Ethylene Glycol and Ethylene Oxide Market Reports, Trends and Analysis of Key Players by 2025
20th November 2018: Global Ethylene Glycol and Ethylene Oxide demand is expected to witness a high growth on account of its vast industrial application especially in the manufacturing of pet bottles. These compounds are vital raw materials that are used in the manufacturing of various products which include detergents, solvents, thickeners, and plastics. Ethylene oxide and ethylene glycol are not used directly and most of its application come as a raw material. Ethylene oxide is an organic compound belonging to the cyclic ether family having a molecular formula C2H4O. At room temperature, it is a colorless gas with a sweet odor. It exhibits flammable characteristics and is categorized as a hazardous substance. It is not well known to consumers although highly used as a raw material to produce consumer products. Ethylene oxide is one of the most produced organic chemicals in the world. Most of the commercial C2H4O is obtained through the chlorohydrin process.
Browse Full Research Report @ https://www.millioninsights.com/industry-reports/ethylene-glycol-oxide-market
Ethylene glycol (C2H6O2) is obtained when ethylene oxide is treated with water in the presence of acidic catalysts. It is a colorless liquid having a sweet taste and moderate toxicity. It is mostly used in the manufacturing of polyester fibers and polyethylene terephthalate resins (PET). Polyester is a popular compound which used these compounds as raw material. Increasing consumption of polyester is the major driving factor propelling the market demand. The textile industry is a major consumer polyester which further drives the overall market demand. Polyester has shown increasing popularity owing to their robustness, tear, and wrinkle resistant. These fibers are used as an insulator in the manufacturing of pillows and upholstery padding. Liquid crystal displays. Further, these polyester fibers are also used to make liquid crystal displays, holograms, tarpaulin, wire insulators and insulation tapes.
Manufacturing of PET bottles is another factor driving the manufacturing of these compounds. Polyethylene terephthalate (PET) is a thermoplastic polymer resin used to make containers for food and beverages. The beverage industry has been extensively using these compounds for packaging. Food and beverage packaging using PET bottles and containers have overshadowed tin packaging owing to its low cost and convenient usage. Detergent manufacturing has been significantly contributing in fueling the demand in recent years. These ethylene compounds are used for manufacturing surfactants. The healthcare sector has witnessed the use of C2H4O for sterilizing medical equipment. These applications in the form of a sterilizing agent and disinfectant agent provide new avenues for the market growth. Another driver comprises of growing demand for antifreeze agents in automobile industries. Anti-freezers are used in vehicles to reduce the freezing point of water based liquid.
Ethylene oxide is categorized as a hazardous material and requires handling with care. Risks associated with its usage is expected to offer a major challenge to the industry growth as companies tend to use safe raw materials for production. Occupational safety and health Organization (OSHA) is an agency under the United States department of labor. OSHA aims at guiding the manufacturers and users for best industrial practices. Stringent government regulations are expected to act as a barrier to industrial growth in the near future. OSHA has set the maximum exposure limit for 15 minutes of 5 parts per million (ppm). The increase in raw material prices is expected to affect the global market demand. These compounds are derived from crude oil and their price fluctuations are expected to impact the profitability.
Europe is anticipated to witness a steady growth mainly on account of detergent and personal care industry. Africa and South America is expected to witness a slow growth owing to the scarce presence of end use industries. Key players operating in the market include Dow Chemical Company, Royal Dutch Shell, Saudi Basic Industries, China Petrochemical Corporation, Formosa Plastics, Ineos, and BASF. Companies are focusing on achieving economies of scale through large scale production in order to negate the fluctuating crude oil prices. The U.S manufacturers have been establishing a strong relationship with customers in Asia-Pacific for establishing strong relations.
Get a Sample Copy of This Report @ https://www.millioninsights.com/industry-reports/ethylene-glycol-oxide-market/request-sample
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Mono ethylene glycol (MEG) is a clear, colorless, slightly volatile, nearly odorless, and faintly viscous liquid. It is miscible with alcohol, water, and many organic compounds and has a chemical formula C2H6O2. MEG is 50% more hygroscopic than glycerol at room temperature. MEG is an important raw material for various industrial applications such as the manufacture of polyester fibers, polyethylene terephthalate (PET), antifreeze and coolants.
#Mono Ethylene Glycol (MEG)#Mono Ethylene Glycol (MEG) Maerket#Mono Ethylene Glycol (MEG) Market Size
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Ethylene Glycol and Ethylene Oxide Market Sales,Revenue, Demand Forecast to 2022
Global ethylene glycol and ethylene oxide Market demand is expected to witness a high growth on account of its vast industrial application especially in the manufacturing of pet bottles. These compounds are vital raw materials that are used in the manufacturing of various products which include detergents, solvents, thickeners, and plastics. Ethylene oxide and ethylene glycol are not used directly and most of its application come as a raw material.
Ethylene oxide is an organic compound belonging to the cyclic ether family having a molecular formula C2H4O. At room temperature, it is a colorless gas with a sweet odor. It exhibits flammable characteristics and is categorized as a hazardous substance. It is not well known to consumers although highly used as a raw material to produce consumer products. Ethylene oxide is one of the most produced organic chemicals in the world. Most of the commercial C2H4O is obtained through the chlorohydrin process.
Browse Detail Market Report of Ethylene Glycol and Ethylene Oxide market@ https://www.millioninsights.com/industry-reports/ethylene-glycol-oxide-market
Ethylene glycol (C2H6O2) is obtained when ethylene oxide is treated with water in the presence of acidic catalysts. It is a colorless liquid having a sweet taste and moderate toxicity. It is mostly used in the manufacturing of polyester fibers and polyethylene terephthalate resins (PET). Polyester is a popular compound which used these compounds as raw material. Increasing consumption of polyester is the major driving factor propelling the market demand.
The textile industry is a major consumer polyester which further drives the overall market demand. Polyester has shown increasing popularity owing to their robustness, tear, and wrinkle resistant. These fibers are used as an insulator in the manufacturing of pillows and upholstery padding. Liquid crystal displays. Further, these polyester fibers are also used to make liquid crystal displays, holograms, tarpaulin, wire insulators and insulation tapes.
Manufacturing of PET bottles is another factor driving the manufacturing of these compounds. Polyethylene terephthalate (PET) is a thermoplastic polymer resin used to make containers for food and beverages. The beverage industry has been extensively using these compounds for packaging. Food and beverage packaging using PET bottles and containers have overshadowed tin packaging owing to its low cost and convenient usage. Detergent manufacturing has been significantly contributing in fueling the demand in recent years.
Request Sample Copy of Ethylene Glycol and Ethylene Oxide market @ https://www.millioninsights.com/industry-reports/ethylene-glycol-oxide-market/request-sample
These ethylene compounds are used for manufacturing surfactants. The healthcare sector has witnessed the use of C2H4O for sterilizing medical equipment. These applications in the form of a sterilizing agent and disinfectant agent provide new avenues for the market growth. Another driver comprises of growing demand for antifreeze agents in automobile industries. Anti-freezers are used in vehicles to reduce the freezing point of water based liquid.
Ethylene oxide is categorized as a hazardous material and requires handling with care. Risks associated with its usage is expected to offer a major challenge to the industry growth as companies tend to use safe raw materials for production. Occupational safety and health Organization (OSHA) is an agency under the United States department of labor. OSHA aims at guiding the manufacturers and users for best industrial practices. Stringent government regulations are expected to act as a barrier to industrial growth in the near future. OSHA has set the maximum exposure limit for 15 minutes of 5 parts per million (ppm). The increase in raw material prices is expected to affect the global market demand. These compounds are derived from crude oil and their price fluctuations are expected to impact the profitability.
The market is segmented based on its application for further chemical production. It includes mono ethylene glycol, ethoxylates, ethanolamine, Diethylene & triethylene, polyols, and polyethylene. Segmentation on the basis of end-use industries includes textiles, detergents & personal care, packaging, agrochemicals and healthcare. North America dominates the market both in terms of demand and production and is expected to continue its dominance owing to its application in polyester and PET manufacturing. Regional demand is followed by Asia Pacific on account of increasing polyester fabric demand. The textile industry in countries including India, China and Malaysia has significantly contributed in propelling the regional growth.
Europe is anticipated to witness a steady growth mainly on account of detergent and personal care industry. Africa and South America is expected to witness a slow growth owing to the scarce presence of end use industries. Key players operating in the market include Dow Chemical Company, Royal Dutch Shell, Saudi Basic Industries, China Petrochemical Corporation, Formosa Plastics, Ineos, and BASF. Companies are focusing on achieving economies of scale through large scale production in order to negate the fluctuating crude oil prices. The U.S manufacturers have been establishing a strong relationship with customers in Asia-Pacific for establishing strong relations.
#Ethylene Glycol and Ethylene Oxide Revenue#Ethylene Glycol and Ethylene Oxide Industry#Ethylene Glycol and Ethylene Oxide Market#Ethylene Glycol and Ethylene Oxide Growth#Ethylene Glycol and Ethylene Oxide Sales#Ethylene Glycol and Ethylene Oxide Share
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Mono Ethylene Glycol (MEG)
Mono Ethylene Glycol (MEG) là một chất lỏng trong suốt, không màu và có mùi đặc trưng.
Công thức hóa học: C2H6O2.
MEG có trọng lượng phân tử 62.07 g/mol và có điểm sôi khoảng 197-198°C.
Nó có tính hút ẩm mạnh và hòa tan hoàn toàn trong nước.
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Ehylene Glycol and Ethylene Oxide Industry Market Trends and Analysis 2017-2022
The global ethylene glycol and ethylene oxide market is expected to witness significant demand over the forecast period. Global ethylene glycol and ethylene oxide demand is expected to witness a high growth on account of its vast industrial application especially in the manufacturing of pet bottles. These compounds are vital raw materials that are used in the manufacturing of various products which include detergents, solvents, thickeners, and plastics. Ethylene oxide and ethylene glycol are not used directly and most of its application come as a raw material.
Ethylene oxide is an organic compound belonging to the cyclic ether family having a molecular formula C2H4O. At room temperature, it is a colorless gas with a sweet odor. It exhibits flammable characteristics and is categorized as a hazardous substance. It is not well known to consumers although highly used as a raw material to produce consumer products. Ethylene oxide is one of the most produced organic chemicals in the world. Most of the commercial C2H4O is obtained through the chlorohydrin process.
Ethylene glycol (C2H6O2) is obtained when ethylene oxide is treated with water in the presence of acidic catalysts. It is a colorless liquid having a sweet taste and moderate toxicity. It is mostly used in the manufacturing of polyester fibers and polyethylene terephthalate resins (PET). Polyester is a popular compound which used these compounds as raw material. Increasing consumption of polyester is the major driving factor propelling the market demand.
Browse Full Research Report @ https://www.millioninsights.com/industry-reports/ethylene-glycol-oxide-market
The textile industry is a major consumer polyester which further drives the overall market demand. Polyester has shown increasing popularity owing to their robustness, tear, and wrinkle resistant. These fibers are used as an insulator in the manufacturing of pillows and upholstery padding. Liquid crystal displays. Further, these polyester fibers are also used to make liquid crystal displays, holograms, tarpaulin, wire insulators and insulation tapes.
Manufacturing of PET bottles is another factor driving the manufacturing of these compounds. Polyethylene terephthalate (PET) is a thermoplastic polymer resin used to make containers for food and beverages. The beverage industry has been extensively using these compounds for packaging. Food and beverage packaging using PET bottles and containers have overshadowed tin packaging owing to its low cost and convenient usage. Detergent manufacturing has been significantly contributing in fueling the demand in recent years. These ethylene compounds are used for manufacturing surfactants. The healthcare sector has witnessed the use of C2H4O for sterilizing medical equipment. These applications in the form of a sterilizing agent and disinfectant agent provide new avenues for the market growth. Another driver comprises of growing demand for antifreeze agents in automobile industries. Anti-freezers are used in vehicles to reduce the freezing point of water based liquid.
Ethylene oxide is categorized as a hazardous material and requires handling with care. Risks associated with its usage is expected to offer a major challenge to the industry growth as companies tend to use safe raw materials for production. Occupational safety and health Organization (OSHA) is an agency under the United States department of labor. OSHA aims at guiding the manufacturers and users for best industrial practices. Stringent government regulations are expected to act as a barrier to industrial growth in the near future. OSHA has set the maximum exposure limit for 15 minutes of 5 parts per million (ppm). The increase in raw material prices is expected to affect the global market demand. These compounds are derived from crude oil and their price fluctuations are expected to impact the profitability.
Request Sample Copy of this Market Research @ https://www.millioninsights.com/industry-reports/ethylene-glycol-oxide-market/request-sample
#Ehylene Glycol and Ethylene Oxide Market#Ehylene Glycol and Ethylene Oxide Industry#Ehylene Glycol and Ethylene Oxide Market Size#Ehylene Glycol and Ethylene Oxide Market Shares#Ehylene Glycol and Ethylene Oxide Market Growth
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Dimethyl Sulfone Industry Analysis of Sales, Revenue, Share to 2022
Global Dimethyl Sulfone (CAS 67-71-0) Market is expected to grow at a significant CAGR in the upcoming years as the scope and its applications are rising enormously across the globe. Dimethyl Sulfone (CAS 67-71-0) is also termed as Methyl Sulfone or DMSO2 is an organic sulfur derivative with a molecular weight of 94.13. Its molecular formula is C2H6O2S. It is a high-temperature solvent and primary metabolite of DMSO. These colorless crystals are soluble in acetone, water, benzene, ethanol, and methanol.
On the other hand, slightly soluble in ether and chloroform. These chemicals are known to have anti-inflammatory and analgesic properties. Exclusively used in research and forensic applications as dimethyl sulfone is primarily found as an adulterant in methamphetamine sample. Also, has the ability to boost the body to produce insulin, although can promote carbohydrate metabolism and is essential for the synthesis of human collagen.
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Dimethyl Sulfone (CAS 67-71-0) Market is segmented based on product types, applications, and region. Product types such as Particle Size > 40 Mesh and Particle Size ≤ 40 Mesh classify Dimethyl Sulfone (CAS 67-71-0) Market. Applications into Industrial Application, Pharmaceutical Application, Food & Feed Application, and others classify Dimethyl Sulfone (CAS 67-71-0) Market. Dimethyl Sulfone (CAS 67-71-0) Market is segmented geographically into Americas (North America, South America), Europe (Eastern Europe, Western Europe), Asia Pacific, Latin America, Middle East and Africa.
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The key players of Dimethyl Sulfone (CAS 67-71-0) Market are Zhuzhou Land MSM, Sigma-Aldrich, Zhuzhou Hansen Chemicals, American Elements, Baofeng, Triveni Chemicals, YueyangXiangmao, Gaylord Chemical Corporation, Hubei Xingfa Chemicals Group, Cayman Chemical Company, Hangzhou Dakang New Materials, Scientific OEM, Xian Medicine Health Product, and TCI Japan. These players are concentrating on inorganic growth to sustain themselves amongst fierce competition. As such, mergers, acquisitions, and joint ventures are the need of the hour.
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CAS No : 107-21-1 | Product Name : Residual Solvent Class 2 - Ethylene Glycol (1.2 mL/ampule; 3 ampules) | Chemical Name : Residual Solvent Class 2 - Ethylene Glycol (1.2 mL/ampule; 3 ampules) | Pharmaffiliates
Buy highly pure Residual Solvent Class 2 - Ethylene Glycol (1.2 mL/ampule; 3 ampules), CAS No : 107-21-1, Mol.Formula : C2H6O2, Mol.Weight : 62.07, from Pharmaffiliates. Login as registered user for prices, availability and discounts.
#CAS No : 107-21-1#PA 27 0020255#Product Name : Residual Solvent Class 2 - Ethylene Glycol (1.2 mL/ampule; 3 ampules)#Chemical Name : Residual Solvent Class 2 - Ethylene Glycol (1.2 mL/ampule; 3 ampules)
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Mono Ethylene Glycol (MEG) Market Restraint and Industry Analysis to 2021
Mono Ethylene Glycol (MEG) is a clear, colorless, slightly volatile, nearly odorless, and faintly viscous liquid. It is miscible with alcohol, water, and many organic compounds and has a chemical formula C2H6O2. MEG is 50% more hygroscopic than glycerol at room temperature. MEG is an important raw material for various industrial applications such as the manufacture of polyester fibers, polyethylene terephthalate (PET), antifreeze and coolants.
The Global Mono Ethylene Glycol (MEG) Market to grow at a CAGR of 6.27% during the period 2017-2021.
The report covers the present scenario and the growth prospects of the global mono ethylene glycol (MEG) market for 2017-2021. The report presents a detailed picture of the market by way of study, synthesis, and summation of data from multiple sources.
The market is divided into the following segments based on geography:
• APAC
• North America
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• Europe
• ROW
Global Mono Ethylene Glycol (MEG) Market 2017-2021, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market.
Key vendors
• Akzo Nobel
• BASF
• Huntsman International
• LyondellBasell Industries Holdings
Other prominent vendors
• Chemtex Speciality
• India Glycols
• LOTTE CHEMICAL
• MEGlobal
• NAN YA PLASTICS
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Market driver
• Increasing demand for PET containers
• For a full, detailed list, view our report
Market challenge
• Volatile crude oil prices
• For a full, detailed list, view our report
Market trend
• Bio-based MEG: Sustainable production
• For a full, detailed list, view our report
Key questions answered in this report
• What will the market size be in 2021 and what will the growth rate be?
• What are the key market trends?
• What is driving this market?
• What are the challenges to market growth?
• Who are the key vendors in this market space?
You can request one free hour of our analyst's time when you purchase this market report. Details are provided within the report.
About Us:
Hexa Reports is a market research and consulting organization, offering industry reports, custom research and consulting services to a host of key industries across the globe.We offer comprehensive business intelligence in the form of industry reports which help our clients obtain clarity about their business environment and enable them to undertake strategic growth initiatives.
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Activity 3 Question 2: 6)Sodium Chloride. NaCl. Salt 7)Ibuprofen. C13H18O2. Advil 8)Water. H20. Water 9)Propane. C3H8. Propane. 10)Ethylene Glycol. C2H6O2. Antifreeze
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