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AHM Luncurkan Pelumas Skutik Honda Makin Hemat dan Tepat
motogokil.com – Assalamu’alaikum wa rochmatullohi wa barokatuh, semoga kita semua selamat di perjalanan sampai ke tujuan. AHM (PT Astra Honda Motor) baru saja meluncurkan AHM OIL tipe SPX2 dan MPX2 dengan kemasan terbaru berukuran 0,65L sesuai kebutuhan sepeda motor skutik Honda bermesin eSP 110cc generasi terbaru. Kehadiran kemasan baru ini semakin memudahkan konsumen dalam memilih pelumas yang…
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#AHM#Anti-Oxidant#Cleansing Agent#hydrocracked-isomerized#MPX2#Oil System Cleaner#Smart Film#SPX2#Visco Improver
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Exploring Zeolite Molecular Sieves: Versatile Solutions for Industrial Applications
Zeolite molecular sieves are a class of highly porous, crystalline materials widely used in various industries for their exceptional ability to selectively adsorb molecules based on size and polarity. Known for their efficiency in gas and liquid purification, moisture removal, and catalysis, zeolite molecular sieves are indispensable in ensuring optimal performance and quality. This blog will provide an in-depth look at what zeolite molecular sieves are, their types, applications, and the advantages they offer.
What Are Zeolite Molecular Sieves?
Zeolite molecular sieves are aluminosilicate minerals with a unique, porous structure that allows them to act as sieves on a molecular level. These materials have uniform pore sizes, which enable them to selectively adsorb molecules based on their size and shape. The framework of zeolites consists of silicon, aluminum, and oxygen atoms, forming a rigid, three-dimensional network with cavities and channels.
Types of Zeolite Molecular Sieves
3A Zeolite Molecular Sieve: With a pore size of approximately 3 angstroms, this type is ideal for drying polar liquids and gases, such as ethanol and methanol, and for applications where small molecular impurities need to be removed.
4A Zeolite Molecular Sieve: Featuring a pore size of about 4 angstroms, it is used for drying gases and liquids, including natural gas and refrigerants. It is also effective in removing moisture from air.
5A Zeolite Molecular Sieve: With a 5 angstrom pore size, this sieve is used for separating normal paraffins from branched and cyclic hydrocarbons, and for the purification of hydrogen and oxygen.
13X Zeolite Molecular Sieve: Having a larger pore size of around 10 angstroms, it is used for air separation, carbon dioxide removal, and in medical applications such as oxygen concentrators.
Applications of Zeolite Molecular Sieves
Gas Purification: Zeolite molecular sieves are extensively used to purify gases by removing impurities such as moisture, carbon dioxide, and sulfur compounds. This application is critical in the production of high-purity gases for industrial and medical use.
Liquid Purification: In the petrochemical and pharmaceutical industries, zeolite molecular sieves are used to purify liquids by removing water and other contaminants, ensuring the integrity and quality of the final product.
Moisture Removal: Zeolite molecular sieves are highly effective desiccants, used to remove moisture from air, gases, and liquids. This is essential in preventing corrosion, freezing, and other moisture-related issues in various systems.
Catalysis: Certain zeolite molecular sieves are used as catalysts in chemical reactions, particularly in the refining and petrochemical industries. They aid in processes such as hydrocracking and isomerization, improving reaction efficiency and product yields.
Air Separation: In the production of nitrogen and oxygen, zeolite molecular sieves are used to separate these gases from air. This is critical in applications ranging from industrial gas supply to medical oxygen concentrators.
Benefits of Using Zeolite Molecular Sieves
High Selectivity: The uniform pore sizes of zeolite molecular sieves enable them to selectively adsorb specific molecules, making them highly effective in purification and separation processes.
Regenerability: Zeolite molecular sieves can be regenerated by heating, making them a cost-effective and sustainable solution for long-term use.
Thermal Stability: Zeolite molecular sieves maintain their structure and functionality even at high temperatures, making them suitable for various industrial applications.
Enhanced Efficiency: By removing impurities and moisture, zeolite molecular sieves improve the efficiency and performance of processes and equipment, leading to better productivity and lower operational costs.
Versatility: With different types and pore sizes, zeolite molecular sieves can be tailored to meet specific needs across a wide range of industries.
How to Choose the Right Zeolite Molecular Sieve
Selecting the appropriate zeolite molecular sieve depends on the specific application and the types of molecules that need to be adsorbed. Factors to consider include:
Pore Size: Match the pore size of the zeolite molecular sieve to the size of the molecules to be adsorbed.
Chemical Compatibility: Ensure the zeolite material is compatible with the substances it will come into contact with.
Regeneration Requirements: Consider the regeneration process and conditions to ensure the sieve can be efficiently regenerated as needed.
Operational Environment: Take into account the temperature, pressure, and other environmental factors in the application area.
Conclusion
Zeolite molecular sieves are essential components in numerous industrial processes, offering unparalleled efficiency in gas and liquid purification, moisture removal, and catalysis. Their unique properties and versatility make them indispensable in ensuring the quality and performance of a wide range of products and systems. By understanding the different types of zeolite molecular sieves and their applications, industries can optimize their processes and achieve superior results. Whether you are looking to enhance gas purification, improve liquid quality, or ensure moisture-free environments, zeolite molecular sieves provide the perfect solution for your needs.
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Global Refinery Catalyst Market Is Estimated To Witness High Growth Owing To Increasing Focus on Environmental Regulations and Growing Demand for Clean Fuels
The global refinery catalyst market is estimated to be valued at USD 4.0 billion in 2020 and is expected to exhibit a CAGR of 2.9% over the forecast period of 2020-2025, as highlighted in a new report published by Coherent Market Insights.
A) Market Overview:
The refinery catalyst market encompasses catalysts utilized in the refining process of petroleum products. These catalysts play a crucial role in transforming crude oil into valuable refined products such as gasoline, diesel, jet fuel, and others. The market includes various types of catalysts such as zeolites, metals, acids, and chemical compounds. Refinery catalysts are widely used in fluid catalytic cracking, hydrocracking, hydrotreating, isomerization, and other processes for enhancing the efficiency and yield of the refining process.
B) Market Dynamics:
1. Increasing Focus on Environmental Regulations:
The stringent environmentally friendly substances, thereby reducing the emission of harmful pollutants.s imposed by various governments across the globe have led to a significant increase in the adoption of refinery catalysts. These catalysts help in reducing the sulfur content in fuels, which is essential for meeting the emission standards. The use of catalysts enables the conversion of sulfur compounds into environmental Regulations:
For instance, the International Maritime Organization (IMO) has set a global sulfur cap of 0.50% on marine fuels since January 1, 2020, to reduce sulfur emissions from ships. This has for meeting the emission standards. The use of catalysts enables the conv20compounds led to a surge in demand for refinery catalysts for desulfurization processes ino environmental Regulations:
2. Growing Demand for Clean Fuels:
The rising awareness regarding environmental pollution and the need for sustainable energy sources have resulted in an increased demand for clean fuels. Refinery catalysts play a vital role in enhancing the quality of fuels by removing impurities and improving their overall performance. The growing demand for clean fuels, such as low-sulfur gasoline and diesel, is driving the adoption of refinery catalysts worldwide.
C) Market Key Trends:
One key trend observed in the Refinery Catalyst Market is the development of advanced catalysts with improved efficiency and selectivity. Manufacturers are focusing on research and development activities to introduce innovative catalysts that offer better performance and higher yields.
For example, Albemarle Corporation, one of the leading players in the market, has developed MAXSORB® MAXD using its proprietary technology. This catalyst offers excellent selectivity for propylene production in fluid catalytic cracking units, resulting in higher yields and improved profitability for refiners.
D) SWOT Analysis:
Strength:
1. Growing demand for clean fuels
2. Increasing focus on environmental regulations
Weakness:
1. High initial investment for refinery catalysts
2. Dependency on crude oil prices
Opportunity:
1. Expansion of refining capacities in emerging economies
2. Technological advancements in catalyst manufacturing
Threats:
1. Fluctuation in crude oil prices
2. Stringent regulatory requirements
E) Key Takeaways:
- The global refinery catalyst market is expected to witness high growth, exhibiting a CAGR of 2.9% over the forecast period, due to increasing focus on environmental regulations and growing demand for clean fuels.
- In terms of regional analysis, Asia Pacific is expected to be the fastest-growing and dominating region in the refinery catalyst market. The rapid industrialization and urbanization in countries like China and India are driving the demand for refined petroleum products and consequently boosting the market growth in this region.
- Key players operating in the global refinery catalyst market include YARA International, Foster Wheeler AG, OXEA GmbH, W R Grace, Johnson Matthey, Albemarle Corporation, BASF SE, Technip SA, and UOP LLC. These companies focus on product innovation, strategic collaborations, and mergers and acquisitions to strengthen their market position and expand their product portfolio.
#Refinery Catalyst Market#Specialty and Fine Chemicals#Refinery Catalyst Market Growth#Refinery Catalyst Market Analysis#Refinery Catalyst Market Forecast#Refinery Catalyst Market Overview
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AHM Luncurkan Pelumas Skutik Honda Makin Hemat dan Tepat
BALIPORTALNEWS.COM, JAKARTA - PT Astra Honda Motor (AHM) meluncurkan AHM OIL tipe SPX2 dan MPX2 dengan kemasan terbaru berukuran 0,65L sesuai kebutuhan sepeda motor skutik Honda bermesin eSP 110cc generasi terbaru. Kehadiran kemasan baru ini semakin memudahkan konsumen dalam memilih pelumas yang lebih tepat untuk menghasilkan efesiensi bahan bakar, performa mesin maksimal, tahan lama dan mesin tahan terhadap termperatur tinggi. AHM OIL tipe SPX2 dan MPX2 dilengkapi Engine Protection Technology yang mampu menjaga mesin sepeda motor lebih awet sehingga biaya perawatan mesin sepeda motor yang lebih kompetitif. Pelumas dengan kemasan baru ini, hadir untuk sepeda motor skutik generasi terbaru yang diproduksi sejak 2021 seperti Honda BeAT, Honda Scoopy dan Honda Genio. General Manager Part Division AHM, Dheni Setiawan mengatakan kehadiran pelumas AHM OIL tipe SPX2 dan MPX2 dengan kemasan terbaru ini semakin melengkapi pilihan konsumen dalam merawat sepeda motor kesayangannya. AHM pun tetap menyediakan pelumas AHM OIL tipe SPX2 dan MPX2 dalam ukuran 0,8L untuk model skutik dan SPX1 dan MPX1 dalam ukuran 0,8L, 1L dan 1,2L untuk sepeda motor model sport dan cub Honda. “Pelumas SPX2 dan MPX2 berukuran 0,65L hadir untuk menjawab kebutuhkan konsumen sepeda motor Honda yang membutuhkan pelumas yang lebih hemat namun tetap berteknologi tinggi. Kami berharap produk perawatan sepeda motor ini dapat menjadi pilihan terbaik untuk konsumen dalam menjaga kinerja mesin dan tenaga mesin yang lebih optimal,” ujar Dheni. Engine Protection Technology dalam AHM OIL memberikan konsumen banyak keuntungan seperti Honda Cleansing Agent untuk menjaga kerbersihan di dalam mesin, Honda Anti-Oxidant yang berfungsi melindungi pelumas dari proses oksidasi sehingga lebih tahan lama, Honda Visco Improver yang menjamin kekentalan pelumas AHM OIL selalu dalam kondisi stabil dan optimal di setiap kondisi suhu, dan Honda Smart Film untuk meminimalisir gesekan antar komponen mesin. Pada varian pelumas SPX series, disematkan teknologi Fully Synthetic yang mengadopsi teknologi terbaru hydrocracked-isomerized, membuat pelumas varian ini lebih unggul dalam kualitas dan kemampuan melindungi mesin sepeda motor Honda. Dengan menggunakan teknologi hydrocrack, varian ini meminimalkan proses oksidasi di dalam mesin dan menjaga suhu mesin tetap dingin. Keseluruhan teknologi pada AHM OIL mendukung performa maksimal sehingga penggunaan bahan bakar semakin efisien. AHM OIL terbaru saat ini sudah bisa ditemukan di seluruh jaringan bengkel Astra Honda Authorized Service Station (AHASS), dealer resmi Honda, dan toko suku cadang Honda di seluruh Indonesia dengan harga Rp49.000, untuk AHM OIL MPX2 0,65L dan untuk SPX2 dengan kemasan 0,65L hadir dengan harga Rp60.000. Oil System Cleaner Selain meluncurkan kemasan pelumas 0,65L, AHM juga mulai memasarkan Oil System Cleaner untuk menjaga kebersihan jalur pelumas mesin sehingga perfoma kinerja sepeda motor Honda tetap dalam kondisi optimal. Oil System Cleaner dapat digunakan pada seluruh tipe sepeda motor Honda yang dipasarkan saat ini. Dalam menemani perawatan mesin yang lebih maksimal, Oil System Cleaner hadir dengan kandungan Powerful Cleansing Agent yang membantu mengurangi potensi timbunan endapan (oil sludge) di jalur pelumas yang menyebabkan keausan mesin prematur, overheat pada mesin sehingga konsumsi bahan bakar meningkat. Produk ini dihasilkan melalui riset panjang, tidak mengandung Solvent yang dapat berpotensi membuat karet (Seal) pada mesin berubah bentuk yang berpotensi menimbulkan kebocoran pelumas. Satu kemasan Oil System Cleaner dapat digunakan untuk sepeda motor dengan kapasitas pelumas mesin hingga 1,2 liter. Penggunaan dapat dilakukan sebelum penggantian pelumas mesin dengan menuangkan cairan Oil System Cleaner ke dalam lubang pengisian pelumas mesin. Selanjutnya, konsumen dapat menyalakan mesin dalam kondisi idle (stasioner) selama 10 menit, lalu buang cairan OIL System Cleaner beserta sisa oil lama yang telah digunakan melalui lubang pembuangan pelumas. Oil System Cleaner saat ini sudah bisa ditemukan di seluruh jaringan bengkel Astra Honda Authorized Service Station (AHASS), dealer resmi Honda, dan toko suku cadang Honda di seluruh Indonesia dengan harga Rp30.000.(bpn) Read the full article
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Green Hydrogen Market 2021-2031 by Application
The green hydrogen market has been segmented based on application, including oil & gas, petrochemical, electric vehicle, power generation, and others. The major end users of green hydrogen in the oil and gas industry include different refining processes such as hydrocracking, hydro isomerization, hydrodealkylation, and hydrodesulphurization. The essential driver behind the adoption of green hydrogen in the oil & gas industry is reducing sulfur dioxide emissions and removing sulfur to prevent catalyst poisoning.
The global green hydrogen market is expected to reach $4,455.8 million by 2031, with a CAGR of 5.13% during the forecast period 2021-2031.
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Global Refinery Catalyst Market 2021 Industry Trends, Future Demands, Growth Factors, Emerging Technologies
Refinery catalysts are used by petroleum refineries in the cracking process. Global refinery catalyst market is mainly driven by the increasing demand for cleaner petroleum products. Based on type, the refinery catalyst can be categorized into seven segments namely Hydroprocessing Catalysts, Fluid Catalytic Cracking Catalysts, Alkylation Catalysts, Hydrogen Manufacturing Catalysts, Hydrodesulphurization Catalysts, Isomerization Catalysts and Others.
Global Refinery Catalyst Market - Trends, COVID-19 impact and Growth Forecasts to 2026
ChemIntel360’s global Refinery Catalyst Market study is a 200+ slide report containing in-depth analysis on historical and forecasted spending and consumption patterns in the sector. We offer granular value and volume data from a global, regional, types, and end-use industry perspective. The industry is expected to grow at a CAGR of 3.2% mainly due to increasing demand for improved cleaner petroleum end products which is expected to bolster the market over the forecast period.
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Scope
This study contains global and regional market size data - value and volume. The numbers are broken down by type (Fluid Catalytic Cracking Catalysts, Reforming Catalysts, Hydrotreating Catalysts, Hydrocracking Catalysts, Isomerization Catalysts, Alkylation Catalysts, and Others), by Ingredients (Metals, Zeolites, Chemical Compounds, and Others). The historical period runs through 2015-2020 and the forecasted period from 2021-2026.
Market Overview
The global Refinery Catalyst market, which grew from US$X.X billion in 2015 to US$X.X billion in 2019, dropped marginally to US$3.8 billion in 2020, due to the ongoing COVID-19 pandemic. Spending is expected to recover in 2021 to value US$X.X billion and increase to US$X.X billion in 2026 at a CAGR of X.X%. Cumulatively the market is expected to value US$X.X billion during the forecast period as compared to US$X.X billion during the historical period.
Regional Analysis
On the basis of Geography, the global Refinery Catalyst market is classified into North America, Europe, Asia Pacific, and the Rest of the world.
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Competitive Landscape
The global Refinery Catalyst market study report offers a valuable insight with an emphasis on the global market including some of the major players are Albemarle Corporation, W. R. Grace & Co., Haldor Topsoe A/S, Honeywell UoP LLC, Sinopec Corp, Clariant International Ltd., Johnson Matthey PLC, Exxon Mobil Corporation, KNT Group.
About Us:
ChemIntel360, part of AgileIntel’s broader research offering, provides an integrated portfolio of quantitative and qualitative research reports on the chemicals sector. Our studies make use of credible market intelligence.
Contact Us:
Mr. Jason Victor
Skype ID: ChemIntel360
mail Id: [email protected]
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Zeolite Molecular Sieve Market Size, Industry & Landscape Outlook, Revenue Growth Analysis to 2030
Zeolite Molecular Sieve Market was valued US$ 4.81 Bn in 2017 and is estimated to reach US$ 6.72 Bn by 2026 at a CAGR of 4.27 % during the forecast.
Zeolite molecular sieve is widely used as a catalyst in a variety of chemical processes. The rise in demand for zeolite molecular sieve from petroleum industry drives the market. Zeolite molecular sieve finds its necessity in industrial and residential purposes for wastewater treatment. As has become an extremely challenging issue in recent times. Zeolites are the best-known adsorbents, as the activated carbon is a matter of high-regeneration and production costs influencing positively on the market.
Detergents segment held a two-third share of the global zeolite molecular sieve market. Zeolite molecular sieves possess the ability to produce demineralized water through calcium ion exchange which helps in the removal of any kind of dirt resulting in tremendous demand for zeolite molecular sieves. Molecular sieves are used for a wide range of catalytic applications. Zeolite molecular sieves play an important role as highly efficient adsorbents in industrial adsorption processes.
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Zeolite molecular sieves are employed in the petroleum industry for dehydration of gas streams, isomerization, alkylation, and epoxidation, and are used in large scale industrial processes, including hydrocracking and fluid catalytic cracking. In the laboratory, zeolite molecular sieves are used to dry solvent or industrial gases.
Europe dominated the global market in 2017 grabbing about 28 % of the overall shares. Asia Pacific region is projected to notify a considerable growth attributed to increasing infrastructure spending in countries like China and India is likely to augment market growth owing to increasing use in manufacturing lightweight construction material also being an important ingredient in producing asphalt concrete mixture. Scope of the Zeolite Molecular Sieve Market Zeolite Molecular Sieve Market, By Application: Catalysts Detergents Adsorbent Zeolite Molecular Sieve Market, By End Use: Air Purification Petroleum Industry Industrial Gas Production Waste and Water Treatment Other
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Key Player analyzed in the Report: Zhongbao Molecular Sieve Shanghai Hengye Novel UOP(Honeywell) Haixin Chemical Zeolites & Allied Products Grace KNT Group Shanghai Zeolite Molecular Siev Shijiazhuang Jianda Gaoke Henan Huanyu Molecular Sieve Fulong New Materials Pingxiang Xintao Luoyang Jianlong Chemical Zeochem YuQing Fenzishai CWK Chemiewerk Bad Kastritz Anhui Mingmei Minchem CECA (Arkema) Shanghai Jiu-Zhou Chemical Tosoh Corporation
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Molecular Sieves Industry | Segments, Size, Share, Trends, Demand, Key Player profile and Regional Outlook by 2027
The Global Molecular Sieves Market is expected to register a 4.5% CAGR during the review period. Molecular sieves are crystalline substances widely used as adsorbents in a broad array of applications particularly isomerization, hydrocracking, and industrial drying. The growing use of molecular sieves in the cosmetics & personal care industry is likely to create lucrative opportunities for the players operating in the Global Molecular Sieves Market.
Pricing Analysis
The prices of molecular sieves differ by type, function, and application. The price of molecular sieve lies between range of USD 2000/Ton and USD 3000/Ton.
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Segmentation
By Type: The molecular sieves market can primarily be categorized into 4A, 3A, 5A, 13X, zeolite Y, and others.
4A—4A was the largest and fastest-growing segment in 2018. 4A molecular sieve has pore diameter of 4 angstrom, i.e., it adsorbs molecules with small diameters such as water, CO2, H2S, and methanol, among others. It is used in wide range of applications including drying & removal of CO2; removal of hydrocarbons, ammonia, & methanol from gas streams; dehydration of refrigerant & air in air brake units of trucks & buses; and drugs & food packaging.
3A—Molecular sieve 3A is the potassium form of the type A crystal structure. It adsorbs molecules with 3 angstrom diameter and thus, mostly used for dehydration. It finds application in the drying of unsaturated hydrocarbons, natural gas, highly polar compounds, and refrigerants.
5A—Molecular sieve 5A is the calcium form of the type A crystal structure. It adsorbs molecules with 5 angstrom diameters. It is usually used for separation of normal and isomerous alkane, co-adsorption of CO2, and moisture.
13X—It adsorbs molecules with less than 10 angstrom diameters. It is commonly used in the removal of mercaptans and removal of CO2 in cryogenic air separation.
Zeolite Y—Y type molecular sieves include ammonium, hydrogen, and ultra-stable. It is being used in various applications including adsorption of VOCs, cracking catalyst, and hydrocracking catalyst.
Others—The others segment accounted for the least market share and it includes type 6A, 7A, 8A, 9A, and 10A.
By Form: The molecular sieves market has been segmented into bead, pellet, and powder.
Bead—Bead was the largest and fastest-growing segment of the Global Molecular Sieves Market in 2018. The segment’s growth can be attributed to the increasing applications in refrigerants, natural gas drying, insulation glass, and packaging.
Pellet—Molecular sieves in pellet form are used less than bead as pellets are more prone to breaking.
Powder—Molecular sieve powder finds use in the formulation of coatings, adhesives, sealants, and elastomers for the removal of water traces.
By Product: The molecular sieves market has been segmented into zeolites, activated carbon, clay, and others.
Zeolites—Zeolites was the largest and fastest segment of the global molecular sieves market. The segment’s growth can be attributed to the increasing demand in major end-use industries such as detergents, automotive, oil & gas, building & construction, and cosmetics & personal care owing to its excellent adsorption properties.
Activated Carbon—Activated carbon finds use in various applications including wastewater treatment; removal of solvents & VOCs in printing; industrial drying; and VOC removal in foundries.
Clay—Clay molecular sieves are used to adsorb moisture and gases. The adsorption capacity of clay is considerable even at low humidity and it increases with the increase in humidity.
Others— The others segment includes porous glass & silica gel, and it accounted for the least share of the global molecular sieves market in 2018.
By End-Use Industry: The global molecular sieves market has been segmented into oil & gas, automotive; packaging; coatings, adhesives, sealants & elastomers (CASE); wastewater treatment; detergents; and others.
Oil & Gas—The segment accounted for the largest share of the global molecular sieves market in 2018 and is expected to register a significant CAGR during the review period. The growth can be attributed to the increase in oil and gas exploration activities to meet the global energy demand particularly from the developing economies.
Automotive—Automotive segment is expected to grow at a significant rate during the review period on account of increasing demand for adsorbents for air drying in air brake systems and for refrigerant drying in automotive air conditioning systems. The growing automotive industry in the developing economies is expected to fuel the demand for molecular sieves in the coming years.
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Packaging—Molecular sieves are being widely used in the packaging of food, electronic components, and pharmaceuticals. The product is used for dehydration and to trace contamination removal in enclosed spaces. Increasing consumption of packaged food products across geographies is expected to propel the market growth during the review period.
Coatings, Adhesives, Sealants & Elastomers (CASE)—Molecular sieves are used to adsorb moisture present in the coatings, sealants, adhesives, and elastomers. Moisture can come from fillers, pigments, or ambient air during the production of CASE products.
Wastewater Treatment—Molecular sieves are used in wastewater treatment applications to adsorb odor, halogenated, and non-polar substances. The growing demand for clean drinking water and increasing regulations against wastewater discharge is propelling the growth of the wastewater treatment industry and thus, molecular sieve.
Detergents—Growing detergents industry with expanding demand for detergents in industrial and domestic applications has driven the demand for ion exchange agents and thus, molecular sieves.
Others—The others segment includes cosmetics & personal care and building & construction industries. The molecular sieves are used to adsorb water in the cosmetics & personal care industry and to increase the durability of insulated glass by adsorbing moisture in the construction industry.
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Demand for FCC Catalyst Set for a Massive Hit in and Post 2021, with Market projection Projected to Threaten Global Market
A recent market study published by FMI on the FCC Catalyst market includes global industry analysis for 2015-2019 & opportunity assessment for 2020-2030, and delivers a comprehensive assessment of the most important market dynamics. After conducting thorough research on the historical and current growth parameters of the FCC Catalyst market, the growth prospects of the market are obtained with maximum precision.
FCC Catalyst Market: Taxonomy
The global FCC Catalyst market is segmented in detail to cover every aspect of the market and present complete market intelligence to the reader.
Product Type
FCC
Reforming
Hydrotreating
Hydrocracking
Isomerization & Alkylation
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Ingredient
Zeolites
Metals
Chemical Compounds
Report Chapters
Chapter 01 – Executive Summary
The report initiates with the executive summary of the FCC Catalyst market, which includes a summary of key findings and statistics of the market. It also includes the demand-side & supply-side trends about the FCC Catalyst market.
Chapter 02 – Market Overview
Readers can find the definition and a detailed taxonomy of the FCC Catalyst market in this chapter, which will help them understand basic information about the market. Along with this, comprehensive information pertaining to FCC Catalyst is provided in this section. This section also highlights the inclusions and exclusions, which help readers understand the scope of the FCC Catalyst market report.
Chapter 03 – Key Market Trends
The FCC Catalyst market report provides the key market trends and developments that are expected to significantly impact the market growth during the forecast period.
Chapter 04 – Key Success Factors
The FCC Catalyst market report provides key market factors that are expected to support the market growth over the forecast period. This section includes the factors that have emerged as key successful factors and strategies adopted by key market participants.
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Chapter 05- Global FCC Catalyst Market Demand Analysis 2015–2019 and Forecast, 2020–2030
This section explains the global market volume analysis and forecast for the FCC Catalyst market in the forecast period of 2020-2030.
Chapter 06- Global FCC Catalyst Market - Pricing Analysis
This section provides the pricing analysis for FCC Catalyst on the basis of by Product Type segment
Chapter 07 - Global FCC Catalyst Market Demand (in Value or Size in US$ Mn) Analysis 2015–2019 and Forecast, 2020–2030
This section explains the global market value analysis or market size and forecast for the FCC Catalyst market in the forecast period of 2020-2030. Readers can also find the absolute $ opportunity for the current year (2020), and an incremental $ opportunity for the forecast period (2020–2030).
Chapter 08 – Market Background
This chapter explains key macro-economic factors that are expected to influence the growth of the FCC Catalyst market over the forecast period. This section also covers COVID-19 Impact assessment for the global market. Along with the macroeconomic factors, this section also highlights the value chain and forecast factors for the FCC Catalyst market. Moreover, in-depth information about the market dynamics and their impact analysis on the market have been provided in the successive section.
Chapter 09 – Global FCC Catalyst Market Analysis 2015-2019 & Opportunity Assessment 2020-2030, by Product Type
Based on Product Type, the FCC Catalyst market is segmented into FCC, Reforming, Hydrotreating, Hydrocracking and Isomerization & Alkylation. In this chapter, readers can find information about the key trends and developments in the FCC Catalyst market and market attractiveness analysis based on Product Type.
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Chapter 10 – Global FCC Catalyst Market Analysis by Ingredient
This chapter provides details about the FCC Catalyst market based on Ingredient, and has been classified Zeolites, Metals and Chemical Compounds. In this chapter, readers can understand the market attractive analysis based on Ingredient.
Chapter 11 – Global FCC Catalyst Market Analysis 2015-2019 & Opportunity Assessment 2020-2030, by Region
This chapter explains how the FCC Catalyst market will grow across several geographic regions such as North America, Latin America, Europe, Asia-Pacific and Middle East & Africa
Chapter 12 – North America FCC Catalyst Market Analysis 2015-2019 & Opportunity Assessment 2020-2030
This chapter includes a detailed analysis of the growth of the North America FCC Catalyst market, along with a country-wise assessment that includes the U.S. and Canada. Readers can also find the pricing analysis, regional trends, and market growth based on end use and countries in North America.
Chapter 13 – Latin America FCC Catalyst Market Analysis 2015-2019 & Opportunity Assessment 2020-2030
This chapter provides the growth scenario of the FCC Catalyst market in Latin America countries such as Brazil, Mexico, and the Rest of Latin America. Along with this, an assessment of the market across target segments has been provided.
Chapter 14 – Europe FCC Catalyst Market Analysis 2015-2019 & Opportunity Assessment 2020-2030
Important growth prospects of the FCC Catalyst market based on its end use in several countries such as Germany, U.K., France, Spain, Italy, Russia and Rest of Europe are included in this chapter.
Chapter 15 –Asia-Pacific FCC Catalyst Market Analysis 2015-2019 & Opportunity Assessment 2020-2030
This chapter highlights the growth of the FCC Catalyst market in Asia-Pacific by focusing on China, India, Japan, ASEAN and Others. This section also helps readers understand the key factors that are responsible for the growth of the FCC Catalysts market in Asia-Pacific.
Chapter 16 – Middle East & Africa FCC Catalyst Market Analysis 2015-2019 & Opportunity Assessment 2020-2030
This chapter highlights the growth of the FCC Catalyst market in Middle East & Africa by focusing on GCC, Northern Africa, Turkey, South Africa and Rest of MEA. This section also helps readers understand the key factors that are responsible for the growth of the FCC Catalyst market in Middle East and Africa.
Chapter 17 - Key and Emerging Countries FCC Catalyst Market Analysis
Important growth prospects of the FCC Catalyst market for the key and emerging countries are included in this chapter. This chapter helps the reader to under the country wise scenario of the FCC Catalyst market.
Chapter 18 – Market Structure Analysis
In this chapter, readers can find detailed information about the tier analysis and market concentration of key players in the FCC Catalyst market, along with their market presence analysis by region and product portfolio.
Chapter 19 – Competition Landscape
In this chapter, readers can find a comprehensive list of all the prominent stakeholders in the FCC Catalyst market, along with detailed information about each company, which includes company overview, revenue shares, strategic overview, and recent company developments. Some of the market players featured in the report are Albemarle Corporation, Sinopec Group, Haldor Topsoe A/S, Exxon Mobil, BASF SE and Clariant AG.
Chapter 20 – Assumptions and Acronyms
This chapter includes a list of acronyms and assumptions that provides a base to the information and statistics included in the FCC Catalyst market report.
Chapter 21 – Research Methodology
This chapter helps readers understand the research methodology followed to obtain various conclusions as well as important qualitative and quantitative information about the FCC Catalyst market.
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Global Refinery Catalyst Market to Grow at a CAGR of 5.14% by 2030 | ChemAnalyst
According to ChemAnalyst report, “Global Refinery Catalyst Market: Plant Capacity, Production, Operating Efficiency, Demand & Supply, Technology, End Use, Distribution Channel, Region, Competition, Trade, Customer & Price Intelligence Market Analysis, 2015-2030”, global Refinery Catalyst market has shown tremendous growth in the past five years and is anticipated to achieve a CAGR of 5.14% during the forecast period. Increasing population and growing demand for petroleum and its derived products, demand from transport sector, increasing consumption of natural gas in household sector, development of new technologies would drive the demand for Refinery Catalyst in the forecast period. These catalysts are also used in various processes like reforming, isomerization, catalytic cracking, desulfurization, etc.
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Majority of refinery catalyst being produced in the world today is used in various processes like reforming, isomerization, catalytic cracking, desulfurization, etc. which take place in refineries. The major end uses of these chemicals are in FCC catalyst, alkylation catalyst, hydrotreating catalyst, hydrocracking catalyst, catalytic reforming. The remaining of the demand of chemicals comes from other applications, such as rise in demand for high Octane fuel, demand for ultra-low sulfur diesel and many more. The catalyst are manufactured by reacting different types of material in different compositions which includes chemical compounds, metals and zeolites. This revolutionary technology is known to be the most economical one, with remarkable benefits such as reduced capital investments, maintenance costs, and waste treatment.
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Among various applications of catalyst, FCC (Fluid Catalytic Cracking) catalyst dominate the Global refinery catalyst market. As of 2020, the FCC (Fluid Catalytic Cracking) catalyst dominate Refinery catalyst end user market and are expected to propel the market growth backed by drivers like increasing e-commerce activities which is dependent on petroleum and its derived products, rapid urbanization, and growing rate of per capita consumption of petroleum and its derived products globally. In the past few years, the increasing industrialization and urbanization and increasing demand from e-commerce activities. These factors are likely to propel the demand for global refinery catalyst in the forecast period. Moreover, increased use of high-octane fuel and demand for ultra-low sulfur diesel are further driving the catalyst demand in the forecast period.
Refinery catalyst prices are linked to its increasing demand from various sectors like e-commerce, household gas, transport, and refineries. Over the past few years, catalyst prices have become highly susceptible to the demand of the petroleum and its derived products. In the first half of FY20 sudden outbreak of novel coronavirus followed by unprecedented fall in demand rendered a sharp downfall in the global Refinery Catalyst prices. Various industrial operations shutdown in the first half of the FY20 which impacted various industries including these chemicals market as it is majorly used in refineries for the efficient production of petroleum derived products. Therefore, catalyst market has also being affected due to shaken market outlook.
Regionally, Asia Pacific dominates the Global refinery catalyst market and holds the largest market share in 2020. Asia’s catalysts market is anticipated to grow in the economies like India, China and Japan due to continuously rising population and high demand from the industrial and e-commerce sector. South Asia, particularly India, seems to be the key market for catalyst as the country is seen as a generally under-supplied market with limited domestic manufacturing. Moreover, increasing focus of the Indian government towards spreading awareness for production in India through campaigns such as MAKE IN INDIA Project would stimulate the growth of the global Refinery catalyst market in the forecast period.
According to ChemAnalyst report, Global Refinery Catalyst Market: Plant Capacity, Production, Operating Efficiency, Demand & Supply, Technology, End Use, Distribution Channel, Region, Competition, Trade, Customer & Price Intelligence Market Analysis, 2015-2030”, some of the major players operating global Refinery Catalyst market are Albemarle Corporation, Haldor Topsoe, W R Grace, Honeywell UOP, Clariant, Axens, Johnson Matthey, JGC Catalyst and Chemicals, Shell Catalyst & Technologies, Arkema, Anten Chemicals, Chempack, China Petroleum and Chemical Corporation, Dorf-Ketal Chemicals Pvt. Ltd., BASF, Exxon Mobil Corporation, Gazprom, KNT Group, etc.
“Being directly linked to the chemicals industry, the global refinery catalyst industry has shown a robust growth alongside growing population and increase of dependency on petroleum and its derived products. India is forecasted to become the world's fifth largest consumer market by 2025. In addition, growing use of petroleum and its derived products globally poised a stronger outlook to the country’s catalyst demand. The nationwide lockdown affected the demand and increased the price due to minimum demand. China also serves as the key growth region with sufficiently installed capacities. With new competitors emerging across the Asian catalyst market, players anticipate that supply will soon outpace demand soon. At this, it is extremely important to keep an eye which region will grab the biggest market share in the upcoming years.” said Mr. Karan Chechi, Research Director with TechSci Research, a research based global management consulting firm promoting ChemAnalyst.
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Molecular Sieves Market: Research, Size, Share, Trends, Demand, Key Player profile and Regional Outlook by 2025
Molecular Sieves Market: Research, Size, Share, Trends, Demand, Key Player profile and Regional Outlook by 2025
The Global Molecular Sieves Market is expected to register a 4.5% CAGRduring the review period. Molecular sieves are crystalline substances widely used as adsorbents in a broad array of applications particularly isomerization, hydrocracking, and industrial drying. The growing use of molecular sieves in the cosmetics & personal care industry is likely to create lucrative opportunities for the…
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Attractive Market Opportunities in the Refinery Catalyst Market by 2027
Refinery Catalyst Market to Expand 1.5X by 2027
The oil & gas sector accounts for around 10% of human-created greenhouse-gas (GHG) emissions, and generates fuels that translate to over 30% of global emissions. Considering the escalating need to react to climate change, the industry will have to play a big part by transitioning its portfolios to net-zero emissions in the decades ahead. Refinery catalysts have been garnering good reputation, as they help reduce the impact of gasoline and diesel on the environment. With government regulations becoming more stringent, the global refinery catalyst market will attain a valuation of US$ 10 Bn by the end of forecast period, 2019-2027.
A recent report published by FMI on the refinery catalyst market provides comprehensive insights into several factors and market dynamics affecting market growth, along with a detailed description of the macroeconomic factors, market dynamics, value chain, competitor analysis, and market structure.
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REFINERY CATALYST MARKET TAXONOMY
The global refinery catalyst market is segmented into three different categories based on product, ingredient, and region.
Product
FCC
Reforming
Hydrotreating
Hydrocracking
Isomerization & Alkylation
Ingredient
Zeolites
Metals
Chemical Compounds
Region
North America
Latin America
Europe
Asia Pacific
MEA
WHAT'S INCLUDEDChapter 01 - Executive Summary
This section of the refinery catalyst market gives a brief summary of market overview, supply and demand trends, and analyst recommendations for manufacturers involved in the manufacturing of refinery catalysts.
Chapter 02 - Refinery Catalyst Market Overview
This chapter includes market taxonomy, definition, and key inclusions considered for the research scope of the refinery catalyst market.
Chapter 03 - Key Success Factors
A list of critical success factors that can help the market players in the refinery catalyst market are included in this chapter.
Chapter 04 - Global Market Volume Demand Analysis 2013-2018 & Opportunity Assessment 2019-2027
In this chapter, volume analysis and forecast of the refinery catalyst market in kilo tons, for historical period and forecasted period are detailed.
Chapter 05 - Refinery Catalyst Pricing Analysis
Global and regional pricing analysis by product type is detailed in the chapter.
Chapter 06 - Global Market Value Demand Analysis 2013-2018 & Opportunity Assessment 2019-2027
Historical and future market value projections of the refinery catalyst market in “US$ Mn” are detailed in this chapter, along with absolute $ opportunity.
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Chapter 07 - Refinery Catalyst Market Background
This chapter of the refinery catalyst market report includes various market dynamics, macro-economic factors, forecast factors, and supply chain analysis that are expected to have an impact on the growth of the target market.
Chapter 08 - Global Market Analysis 2013-2018 & Opportunity Assessment 2019-2027 by Product
On the basis of product type, the refinery catalyst market is segmented into FCC, reforming, hydrotreating, hydrocracking and isomerization & alkylation. This chapter helps readers understand key market trends and latest developments in the refinery catalyst market based on product.
Chapter 09 - Global Market Analysis 2013-2018 & Opportunity Assessment 2019-2027 by Ingredient
This chapter provides details about the refinery catalyst market based on ingredients, and has been classified into zeolites, chemical compounds, and metals. In this chapter, readers can understand the market attractiveness analysis based on ingredients.
Chapter 10 - Global Market Analysis 2013-2018 & Opportunity Assessment 2019-2027 by Region
This chapter provides the refinery catalyst market growth across several regions like North America, Europe, Latin America, Asia Pacific, and MEA.
Chapter 11 - North America Market Analysis 2013-2018 & Opportunity Assessment 2019-2027
A detailed analysis of growth trends of the North America refinery catalyst market, pricing analysis, regional trends, along with a country-wise assessment that includes the U.S. and Canada are included in this chapter.
Chapter 12 - Latin America Market Analysis 2013-2018 & Opportunity Assessment 2019-2027
Growth scenario of the refinery catalyst market in Latin American countries like Brazil, Mexico, and the Rest of Latin America, along with assessment of the market across target segments has been provided in this chapter.
Chapter 13 - Europe Market Analysis 2013-2018 & Opportunity Assessment 2019-2027
Important growth prospects of the refinery catalyst market based on its end users in several countries such as Germany, France, the U.K., Russia, and Rest of Europe are covered in this chapter.
Chapter 14 - Asia Pacific Market Analysis 2013-2018 & Opportunity Assessment 2019-2027
A detailed analysis of growth trends of the Asia Pacific refinery catalyst market, pricing analysis, regional trends, along with a country-wise assessment of China, India, Japan, ASEAN, and Rest of Asia Pacific are covered in this chapter.
Chapter 15 - MEA Market Analysis 2013-2018 & Opportunity Assessment 2019-2027
Growth trends of the refinery catalyst market in the MEA region across GCC, Northern Africa, South Africa, Turkey, and Rest of Middle East & Africa are covered in this chapter.
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Chapter 16 - Emerging Countries Market Analysis 2013-2018 & Opportunity Assessment 2019-2027
Growth trends of the refinery catalyst market across emerging countries in the market like India, China, and Mexico are presented in this chapter.
Chapter 17 - Market Structure Analysis
In this chapter, detailed information about the competition tier structure analysis and market concentration of key players in the refinery catalyst market, along with their market presence analysis by region and product portfolio is presented.
Chapter 18 - Competition Analysis
Detailed analysis of key players in the refinery catalyst market with company overview, financial performance, strategic overview, and SWOT analysis are presented in this chapter. Some of the market players featured in the report are Albemarle Corporation, W.R. Grace & Co, Axens S.A., Clariant International Ltd., Criterion Catalysts & Technologies L.P., ExxonMobil Corporation, and Haldor Topsoe A/S, among others.
Chapter 19 - Assumptions and Acronyms
A list of acronyms and assumptions used in the refinery catalyst market report is given.
Chapter 20 - Research Methodology
A description of research methodology used to obtain the market size of the refinery catalyst market is detailed in the section.
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Zeolite Molecular Sieve Market - Impact Of Covid-19 And Benchmarking
Zeolite Molecular Sieve Market was valued US$ 4.81 Bn in 2017 and is estimated to reach US$ 6.72 Bn by 2026 at a CAGR of 4.27 % during the forecast.
Zeolite molecular sieve is widely used as a catalyst in a variety of chemical processes. The rise in demand for zeolite molecular sieve from petroleum industry drives the market. Zeolite molecular sieve finds its necessity in industrial and residential purposes for wastewater treatment. As has become an extremely challenging issue in recent times. Zeolites are the best-known adsorbents, as the activated carbon is a matter of high-regeneration and production costs influencing positively on the market.
Request For Report Sample@ https://www.trendsmarketresearch.com/report/sample/4065 Detergents segment held a two-third share of the global zeolite molecular sieve market. Zeolite molecular sieves possess the ability to produce demineralized water through calcium ion exchange which helps in the removal of any kind of dirt resulting in tremendous demand for zeolite molecular sieves. Molecular sieves are used for a wide range of catalytic applications. Zeolite molecular sieves play an important role as highly efficient adsorbents in industrial adsorption processes.
Zeolite molecular sieves are employed in the petroleum industry for dehydration of gas streams, isomerization, alkylation, and epoxidation, and are used in large scale industrial processes, including hydrocracking and fluid catalytic cracking. In the laboratory, zeolite molecular sieves are used to dry solvent or industrial gases.
Europe dominated the global market in 2017 grabbing about 28 % of the overall shares. Asia Pacific region is projected to notify a considerable growth attributed to increasing infrastructure spending in countries like China and India is likely to augment market growth owing to increasing use in manufacturing lightweight construction material also being an important ingredient in producing asphalt concrete mixture. Scope of the Zeolite Molecular Sieve Market Zeolite Molecular Sieve Market, By Application: Catalysts Detergents Adsorbent Zeolite Molecular Sieve Market, By End Use: Air Purification Petroleum Industry Industrial Gas Production Waste and Water Treatment Other
Ask for Analyst@ https://www.trendsmarketresearch.com/report/analyst/4065 Zeolite Molecular Sieve Market, by Region: North America Europe Asia-Pacific South America Middle East & Africa Key Player analyzed in the Report: Zhongbao Molecular Sieve Shanghai Hengye Novel UOP(Honeywell) Haixin Chemical Zeolites & Allied Products Grace KNT Group Shanghai Zeolite Molecular Siev Shijiazhuang Jianda Gaoke Henan Huanyu Molecular Sieve Fulong New Materials Pingxiang Xintao Luoyang Jianlong Chemical Zeochem YuQing Fenzishai CWK Chemiewerk Bad Kastritz Anhui Mingmei Minchem CECA (Arkema) Shanghai Jiu-Zhou Chemical Tosoh Corporation
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Refinery Catalysts Market 2020 Future Trends, Dynamic Growth & Forecast To 2028
A recent report published by QMI on refinery catalysts market is a detailed assessment of the most important market dynamics. After carrying out thorough research of refinery catalysts market historical as well as current growth parameters, business expectations for growth are obtained with utmost precision.
Refinery catalysts due to their properties are commonly used in petroleum refineries to change the chemical reaction rate. In addition, the quality of the gasoline products generated by FCC and hydro-processing is also enhanced. Refinery catalysts are known to minimize the adverse effects of gasoline and diesel on the environment.
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The study identifies specific and important factors affecting the market for refinery catalysts during the forecast period. It can enable manufacturers of refinery catalysts to change their production and marketing strategies in order to envisage maximum growth.
Companies Covered: Companies Covered: JGC C&C, Honeywell International Inc, Haldor Topsoe A/S, Filtra Catalysts and Chemicals Ltd., Exxon Mobil Corporation., Criterion Catalysts & Technologies L.P., Clariant, China Petrochemical Corporation., Chempack, BASF SE, Axens, Arkema, Anten Chemical Co, Albemarle Corporation, W. R. Grace & Co, NESTE, and Advameg Inc.
Insights about regional distribution of market:
The market has been segmented in major regions to understand the global development and demand patterns of this market. For refinery catalysts market, the segments by region are for North America, Asia Pacific, Western Europe, Eastern Europe, Middle East, and Rest of the World. During the forecast period, North America, Asia Pacific and Western Europe are expected to be major regions on the refinery catalysts market.
North America and Western Europe have been dominant players in this market with the presence of major companies which have a strong infrastructure to boost the growth of this market. Recent economic slowdowns, trade implications and environmental concerns are some of the key impact factors influencing the market dynamics in these regions.
Also, some of the major companies operating in refinery catalysts market are headquartered in these regions.
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The Asia Pacific region is estimated to register fastest growth in the refinery catalysts market since some of the major economies like China, India, and South Korea are present in the region. Chemical, material, and healthcare are some of the major industries in the region with strong potential for the refinery catalysts market. During the forecast period, the Middle East region promises a strong market potential with a high demand. It is estimated that Eastern Europe will have stable demand during the forecast period. Also, the rest of the world is expected to be an emerging market due to the increasing demand.
What Does This Report Provide?
This report provides a detailed understanding of the global refinery catalysts market from qualitative and quantitative perspectives during the forecast period. The report also provides dynamic indicators with a potential impact on the market during the forecast period and an in-depth analysis of the leading companies operating in the refinery catalysts market.
Market Segmentation:
By Type:
Fluid Catalytic Cracking
Reforming
Hydrotreating
Hydrocracking
Isomerization
Alkylation
By Material:
Zeolite
Metal
Chemical Compound
Others
By Region:
North America
By Country (US, Canada, Mexico)
By Type
By Material
Western Europe:
By Country (Germany, UK, France, Spain, Rest of Western Europe)
By Type
By Material
Eastern Europe:
By Country (Russia, Turkey, Rest of Eastern Europe)
By Type
By Material
Asia Pacific
By Country (China, Japan, India, Rest of Asia Pacific)
By Type
By Material
By Country (UAE, Qatar, Iran, Saudi Arabia, Rest of Middle East)
By Type
By Material
By Region (South America, Africa)
By Type
By Material
ABOUT US:
QMI has the most comprehensive collection of market research products and services available on the web. We deliver reports from virtually all major publications and refresh our list regularly to provide you with immediate online access to the world's most extensive and up-to-date archive of professional insights into global markets, companies, goods, and patterns.
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Heavy Oil Cracking Catalyst Market Poised for Steady Growth in the Future 2019– 2027
Heavy Oil Cracking Catalyst Market: Overview
Cracking catalysts such as alumina, silica, and zeolites are used in the petroleum refining process to refine heavy fuel oils into lighter, smaller, and simpler short-chain molecules of fuel
These cracking catalysts are used for cracking the residue; improving the gasoline yield; reducing the olefin content; and providing hydrothermal stability, resistance to heavy metal pollution, mechanical strength, and high heavy oil cracking ability
To obtain all-inclusive information on forecast analysis of global Heavy Oil Cracking Catalyst Market, request a Report Brochure here.
Zeolite Catalysts to Gain Traction in Heavy Oil Cracking Catalyst Market
In terms of type, the global heavy oil cracking catalyst market can be segmented into alumina, silica, zeolites, and others. The zeolites segment is estimated to hold a major share of the global market in the near future.
Zeolite catalysts are widely used for light naphtha isomerization, olefin alkylation, reforming, cracking, and hydrocracking
Global demand for heavy oil cracking catalysts is anticipated to increase during the forecast period, owing to high usage of zeolites as catalysts in the refining & petrochemistry sector
Unique surface chemistry and low cost of mineral molecular sieve zeolites are factors projected to create scope for processing of highly contaminated heavy oils such as bitumen in the near future
Demand for zeolite catalysts in the refining of heavy oils is expected to increase in the next few years, due to the crystalline morphology of these catalysts that promotes high exterior surface area and low cost disposal. Thus, zeolite catalysts are highly preferred over other catalysts for use in the refining of heavy oils.
Furthermore, zeolite catalysts are gaining popularity among oil and petroleum refiners, as they are highly acidic in nature and possess an excellent characteristic of removal of nitrogen bases, associated heavy metals, and sulfur. This is estimated to propel the global heavy oil cracking catalyst market during the forecast period.
Adoption of New Heavy Oil Cracking Technologies to Boost Demand
Recently, rising incidences stating the worsening quality of crude oil have led to an emerging need for unconventional petroleum feedstocks such as heavy oils, bitumen, and residues. Thus, processing of such unconventional petroleum feedstocks has become increasingly important.
The processing of heavy oil feedstocks calls for development of new and effective techniques that would lead to increase in the yield of light fractions, suppression of coke formation, and saturation of liquid products with hydrogen. Increase in the rate of adoption of effective cracking catalysts, such as alumina, silica, and zeolites, for refining of heavy oils is projected to meet these rising needs in the next few years.
Moreover, utilization of cracking catalysts for heavy oils minimizes capital and operating costs of the process. This is estimated to boost the demand for heavy oil cracking catalysts during the forecast period.
New catalyst alternatives that help in reducing emissions of sulfur, sulfur oxides, nitrogen oxides, and carbon monoxide and in maximizing propylene production in fuels are being introduced on a commercial scale
Such fuels with ultra-low sulfur content are primarily used in aviation. High demand for these fuels in the aerospace & aviation industry is anticipated to drive the global heavy oil cracking catalyst market during the forecast period.
Thus, technological upgrade and enhancement of existing equipment in the petroleum refining industry are estimated to boost the demand for heavy oil cracking catalysts in the near future
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North America Anticipated to Dominate Global Heavy Oil Cracking Catalyst Market
In terms of region, the global heavy oil cracking catalyst market can be divided into five regions: North America, Europe, Asia Pacific, Latin America, and Middle East & Africa
North America accounted for a major share of the global heavy oil cracking catalyst market in 2018
North America is a leading consumer of heavy oil cracking catalysts, followed by Europe and Asia Pacific. Rise in the demand for heavy oil cracking catalysts as fuel catalysts in developed economies, such as the U.S. and Canada, is expected to boost the market in the region during the forecast period. Furthermore, North America is a major producer of heavy oil cracking catalysts in the world. Countries such as the U.S. and Canada have a strong network for distribution of heavy oil cracking catalyst products. The U.S. manufactures heavy oil cracking catalysts in substantial amounts and exports them to Europe and Asia.
Implementation of stringent regulations led by rising concerns related to the environment in developed economies in North America is expected to boost the demand for heavy oil cracking catalysts in the region in the near future
The market for heavy oil cracking catalysts in Europe is anticipated to expand at a moderate pace in the next few years, as oil refiners prefer the hydrocracking process over the use of cracking catalysts. Higher demand for diesel and kerosene than that for gasoline among consumers in the region has resulted in low preference for cracking catalysts.
The market in Asia Pacific is anticipated to expand at a rapid pace during the forecast period, due to the rise in industrialization and growth of the petroleum refinery sector in countries such as China and India. Rise in the demand for heavy oil cracking catalysts in Asia Pacific has encouraged catalyst manufacturers in China to establish new production lines. This is likely to boost the demand for heavy oil cracking catalysts in the country in the next few years.
Advancements in the composition of heavy oil cracking catalysts and advent of new manufacturing technologies are estimated to drive the demand for heavy oil cracking catalysts in Asia Pacific in the near future
Increase in FDIs (foreign direct investments) in the petroleum industry in developing economies of Asia Pacific and Latin America is another key factor that is anticipated to drive the market in the region during the forecast period
The heavy oil cracking catalyst market in the Middle East is projected to expand at a rapid pace during the next few years, owing to the rise in investments in downstream activities in the oil & gas industry in the sub-region
Key Players Operating in Global Heavy Oil Cracking Catalyst Market
Key players operating in the global heavy oil cracking catalyst market have maintained strong relations with stakeholders, by undergoing lateral and vertical integrations. These companies are focused on distributing their products through effective distribution channels in order to gain higher market share.
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Molecular Sieves Market Size | Research, Trends, Share, Growth, Demand, Industry Analysis, Key Player profile and Regional Outlook by 2025
Molecular sieves are crystalline substances widely used as adsorbents in a broad array of applications particularly isomerization, hydrocracking, and industrial drying. The growing use of molecular sieves in the cosmetics & personal care industry is likely to create lucrative opportunities for the players operating in the Global Molecular Sieves Market.
The Global Molecular Sieves Market Size is expected to register a 4.5% CAGR during the review period.
Pricing Analysis
The prices of molecular sieves differ by type, function, and application. The price of molecular sieve lies between range of USD 2000/Ton and USD 3000/Ton.
Segmentation
By Type: The molecular sieves market can primarily be categorized into 4A, 3A, 5A, 13X, zeolite Y, and others.
4A—4A was the largest and fastest-growing segment in 2018. 4A molecular sieve has pore diameter of 4 angstrom, i.e., it adsorbs molecules with small diameters such as water, CO2, H2S, and methanol, among others. It is used in wide range of applications including drying & removal of CO2; removal of hydrocarbons, ammonia, & methanol from gas streams; dehydration of refrigerant & air in air brake units of trucks & buses; and drugs & food packaging.
3A—Molecular sieve 3A is the potassium form of the type A crystal structure. It adsorbs molecules with 3 angstrom diameter and thus, mostly used for dehydration. It finds application in the drying of unsaturated hydrocarbons, natural gas, highly polar compounds, and refrigerants.
5A—Molecular sieve 5A is the calcium form of the type A crystal structure. It adsorbs molecules with 5 angstrom diameters. It is usually used for separation of normal and isomerous alkane, co-adsorption of CO2, and moisture.
13X—It adsorbs molecules with less than 10 angstrom diameters. It is commonly used in the removal of mercaptans and removal of CO2 in cryogenic air separation.
Zeolite Y—Y type molecular sieves include ammonium, hydrogen, and ultra-stable. It is being used in various applications including adsorption of VOCs, cracking catalyst, and hydrocracking catalyst.
Others—The others segment accounted for the least market share and it includes type 6A, 7A, 8A, 9A, and 10A.
By Form: The molecular sieves market has been segmented into bead, pellet, and powder.
Bead—Bead was the largest and fastest-growing segment of the Global Molecular Sieves Market in 2018. The segment’s growth can be attributed to the increasing applications in refrigerants, natural gas drying, insulation glass, and packaging.
Pellet—Molecular sieves in pellet form are used less than bead as pellets are more prone to breaking.
Powder—Molecular sieve powder finds use in the formulation of coatings, adhesives, sealants, and elastomers for the removal of water traces.
By Product: The molecular sieves market has been segmented into zeolites, activated carbon, clay, and others.
Zeolites—Zeolites was the largest and fastest segment of the global molecular sieves market. The segment’s growth can be attributed to the increasing demand in major end-use industries such as detergents, automotive, oil & gas, building & construction, and cosmetics & personal care owing to its excellent adsorption properties.
Activated Carbon—Activated carbon finds use in various applications including wastewater treatment; removal of solvents & VOCs in printing; industrial drying; and VOC removal in foundries.
Clay—Clay molecular sieves are used to adsorb moisture and gases. The adsorption capacity of clay is considerable even at low humidity and it increases with the increase in humidity.
Others— The others segment includes porous glass & silica gel, and it accounted for the least share of the global molecular sieves market in 2018.
By End-Use Industry: The global molecular sieves market has been segmented into oil & gas, automotive; packaging; coatings, adhesives, sealants & elastomers (CASE); wastewater treatment; detergents; and others.
Oil & Gas—The segment accounted for the largest share of the global molecular sieves market in 2018 and is expected to register a significant CAGR during the review period. The growth can be attributed to the increase in oil and gas exploration activities to meet the global energy demand particularly from the developing economies.
Automotive—Automotive segment is expected to grow at a significant rate during the review period on account of increasing demand for adsorbents for air drying in air brake systems and for refrigerant drying in automotive air conditioning systems. The growing automotive industry in the developing economies is expected to fuel the demand for molecular sieves in the coming years.
Packaging—Molecular sieves are being widely used in the packaging of food, electronic components, and pharmaceuticals. The product is used for dehydration and to trace contamination removal in enclosed spaces. Increasing consumption of packaged food products across geographies is expected to propel the market growth during the review period.
Coatings, Adhesives, Sealants & Elastomers (CASE)—Molecular sieves are used to adsorb moisture present in the coatings, sealants, adhesives, and elastomers. Moisture can come from fillers, pigments, or ambient air during the production of CASE products.
Wastewater Treatment—Molecular sieves are used in wastewater treatment applications to adsorb odor, halogenated, and non-polar substances. The growing demand for clean drinking water and increasing regulations against wastewater discharge is propelling the growth of the wastewater treatment industry and thus, molecular sieve.
Detergents—Growing detergents industry with expanding demand for detergents in industrial and domestic applications has driven the demand for ion exchange agents and thus, molecular sieves.
Others—The others segment includes cosmetics & personal care and building & construction industries. The molecular sieves are used to adsorb water in the cosmetics & personal care industry and to increase the durability of insulated glass by adsorbing moisture in the construction industry.
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