Researchmoz added Most up-to-date research on "Refinery Catalysts Market Strategies, Analysis, and Opportunities: Albemarle, BASF, Haldor Topsoe and Honeywell / UOP" to its huge collection of research reports.
The global market for refinery catalysts is gaining high prominence owing to the important role played by refinery catalysts in the cracking process in petroleum refineries. While the massive global consumption of petroleum products, which continues to rise at a steady pace, is a key driver of the market, stringent government regulations pertaining to the emissions produced by vehicles and other industrial sectors are also expected to play a big role in the development of the market in the next few years.
In the past 2-3 years, the massive volatility in crude oil prices on a global front has had a significant negative impact on the production volumes and revenues of several refinery catalyst manufacturers. Analysts suggest that the situation will remain unchanged or will modify at a very slow pace. It will be a while until the global costs of crude oil settle at a gainful margin and the scenario will lead to some challenges to the growth of the companies operating in the global refinery catalyst market.
Nevertheless, companies in the market could benefit from the thriving automotive and automotive fuels industries in Asia Pacific in the near future. Stringent regulations governing vehicle emissions in North America and Europe will also present the increased demand for refined oil, thus driving the demand for refinery catalysts in turn.
The study addresses hydroprocessing catalysts and FCC catalysts. Hydroprocessing catalysts are used to create cleaner fuels--especially ULSD. Demand for cleaner fuels is driving the market. Refining catalysts are experiencing strong growth. New fuel standards are coupled with refineries increasing use of heavier and dirtier feedstocks and major additions to refining capacity.
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The refinery catalyst market is thus boosted by the fact that the efficient use of catalysts can help the manufacturers' better address the increasing energy demand. Fluid catalytic cracking (FCC) is the conversion process used in petroleum refineries. It is widely used to convert the high-boiling, high-molecular weight hydrocarbon fractions of petroleum crude oils to more valuable gasoline, olefinic gases and other products.
Cracking of petroleum hydrocarbons is done by catalytic cracking because it produces more gasoline with a higher-octane rating. Byproduct gases are more olefinic. These are more valuable than those produced by thermal cracking.
The feedstock to an FCC is that portion of the crude oil that has an initial boiling point of 340 °C or higher at atmospheric pressure. The average molecular weight ranges from about 200 to 600 or higher. This portion of crude oil is often referred to as heavy gas oil. The FCC process vaporizes and breaks the long-chain molecules of the high-boiling hydrocarbon liquids into much shorter molecules by contacting the feedstock, at high temperature and moderate pressure, with a fluidized powdered catalyst.
Hydroprocessing faces significant challenges as crude feeds get heavier; there will be more sulphur and nitrogen to extract; more aromatics to saturate; more metals to remove; and more coke to deal with. Refiners have ageing facilities, which may not be designed and optimized to meet new challenges. As more capital investment is needed, costs for refining fossil fuels will rise, stimulating markets for renewable energy, making them more competitive with fossil fuels.
Browse TOC @ https://www.researchmoz.us/refinery-catalysts-market-strategies-analysis-and-opportunities-report.html/toc
The cost of hydrocracking catalysts varies because of composition differences. The catalysts can be alumina with base metals or contain added crystalline zeolites. High quality ultra-stable type Y molecular sieve zeolites are used in this service. Nickel-moly or nickel-tungsten are the active metals frequently used.
FCC additives are used with catalysts to meet specific unit objectives. Higher gasoline octane, lower gasoline sulfur, lower sulfur oxides (SOx) and nitrogen oxides emissions, lower carbon monoxide levels, improve fluidization, make more propylene and/or liquefied petroleum gas (LPG) and improve bottoms cracking are FCC objectives.
“Fluid Catalytic Cracking (FCC) petroleum refining products overcome limiting factors affecting refinery capacity and operating flexibility to deliver value and performance. Catalysts are a crucial component in the processing of highly valued petrochemicals, gasoline, diesel and other fuels.”
The market for refinery catalysts in the oil refining sector at $4,967 million in 2016 is expected to be worth $6,490 million by 2023, growing at 3.8% on average between 2017 and 2023. There are 500 FCC units being operated globally, each of which requires a constant supply of FCC catalysts. There are 3,000 HPC units being operated globally, or a capacity of approximately 44 million barrels per day, each of which typically requires replacement HPC catalysts once every one to four years.
Companies Profiled
Market Leaders
The global market for refinery catalysts is gaining high prominence owing to the important role played by refinery catalysts in the cracking process in petroleum refineries. While the massive global consumption of petroleum products, which continues to rise at a steady pace, is a key driver of the market, stringent government regulations pertaining to the emissions produced by vehicles and other industrial sectors are also expected to play a big role in the development of the market in the next few years.
In the past 2-3 years, the massive volatility in crude oil prices on a global front has had a significant negative impact on the production volumes and revenues of several refinery catalyst manufacturers. Analysts suggest that the situation will remain unchanged or will modify at a very slow pace. It will be a while until the global costs of crude oil settle at a gainful margin and the scenario will lead to some challenges to the growth of the companies operating in the global refinery catalyst market.
Nevertheless, companies in the market could benefit from the thriving automotive and automotive fuels industries in Asia Pacific in the near future. Stringent regulations governing vehicle emissions in North America and Europe will also present the increased demand for refined oil, thus driving the demand for refinery catalysts in turn.
The study addresses hydroprocessing catalysts and FCC catalysts. Hydroprocessing catalysts are used to create cleaner fuels--especially ULSD. Demand for cleaner fuels is driving the market. Refining catalysts are experiencing strong growth. New fuel standards are coupled with refineries increasing use of heavier and dirtier feedstocks and major additions to refining capacity.
To Get Sample Copy of Report visit @ https://www.researchmoz.us/enquiry.php?type=S&repid=1066880
The refinery catalyst market is thus boosted by the fact that the efficient use of catalysts can help the manufacturers' better address the increasing energy demand. Fluid catalytic cracking (FCC) is the conversion process used in petroleum refineries. It is widely used to convert the high-boiling, high-molecular weight hydrocarbon fractions of petroleum crude oils to more valuable gasoline, olefinic gases and other products.
Cracking of petroleum hydrocarbons is done by catalytic cracking because it produces more gasoline with a higher-octane rating. Byproduct gases are more olefinic. These are more valuable than those produced by thermal cracking.
The feedstock to an FCC is that portion of the crude oil that has an initial boiling point of 340 °C or higher at atmospheric pressure. The average molecular weight ranges from about 200 to 600 or higher. This portion of crude oil is often referred to as heavy gas oil. The FCC process vaporizes and breaks the long-chain molecules of the high-boiling hydrocarbon liquids into much shorter molecules by contacting the feedstock, at high temperature and moderate pressure, with a fluidized powdered catalyst.
Hydroprocessing faces significant challenges as crude feeds get heavier; there will be more sulphur and nitrogen to extract; more aromatics to saturate; more metals to remove; and more coke to deal with. Refiners have ageing facilities, which may not be designed and optimized to meet new challenges. As more capital investment is needed, costs for refining fossil fuels will rise, stimulating markets for renewable energy, making them more competitive with fossil fuels.
Browse TOC @ https://www.researchmoz.us/refinery-catalysts-market-strategies-analysis-and-opportunities-report.html/toc
The cost of hydrocracking catalysts varies because of composition differences. The catalysts can be alumina with base metals or contain added crystalline zeolites. High quality ultra-stable type Y molecular sieve zeolites are used in this service. Nickel-moly or nickel-tungsten are the active metals frequently used.
FCC additives are used with catalysts to meet specific unit objectives. Higher gasoline octane, lower gasoline sulfur, lower sulfur oxides (SOx) and nitrogen oxides emissions, lower carbon monoxide levels, improve fluidization, make more propylene and/or liquefied petroleum gas (LPG) and improve bottoms cracking are FCC objectives.
“Fluid Catalytic Cracking (FCC) petroleum refining products overcome limiting factors affecting refinery capacity and operating flexibility to deliver value and performance. Catalysts are a crucial component in the processing of highly valued petrochemicals, gasoline, diesel and other fuels.”
The market for refinery catalysts in the oil refining sector at $4,967 million in 2016 is expected to be worth $6,490 million by 2023, growing at 3.8% on average between 2017 and 2023. There are 500 FCC units being operated globally, each of which requires a constant supply of FCC catalysts. There are 3,000 HPC units being operated globally, or a capacity of approximately 44 million barrels per day, each of which typically requires replacement HPC catalysts once every one to four years.
Companies Profiled
Market Leaders
- Albemarle
- BASF
- Haldor Topsoe
- Honeywell / UOP
- Advanced Refining Technologies (ART)
- WR Grace
- Clariant AG / Süd-Chemie AG
- Shell CRI
- IFP Energies nouvelles Group Company / Axens
- Sinopec China Petrochemical Corporation
- Shell / Criterion
- Air Products
- Advanced Energy Materials LLC
- Chevron
- Clean Diesel Technologies
- Clean Diesel Technologies / Catalytic Solutions
- Dow
- Evonik Industries
- ExxonMobil Catalysts and Licensing LLC,
- Headwaters Technology Innovation (HTI)
- IFP Energies Nouvelles Group Company / Axens / Eurecat UNICAT Catalyst Technologies
- Indian Oil Corporation
- Johnson Matthey
- KBR Hydroprocessing
- Nanostellar
- Petrobras Partnership with Albemarle
- Quantiam Technologies Inc.
- Rive Technology and Grace Davison
- Shell
- Shell / Sekiyu
- Shoaibi Group / General Technology & Systems Company Ltd (GENTAS)
- UNICAT Catalyst Technologies
- Zeochem
- Zeolyst
- Selected Refinery Catalyst Companies
- Emerging Catalyst Companies
- FCC Catalyst & Additive Suppliers
- Government Agencies and Other Organizations
- Catalysts
- Petroleum Process
- Chemical Process
- Fluid Catalytic Cracking FCC Catalysts
- Hydroprocessing Catalysts
- Metal Refinery Catalys
- Nanotechnology
- Related Energy
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