Refinery Catalyst Provides Solid State Storage of Energy Useful for Smarter Planet Sensors, Electric Vehicle Batteries, and Renewable Energy Substation Storage. Refinery catalyst markets at $3.3 billion in 2011 are anticipated to reach $4.3 billion in 2018. Market growth comes in large part from demand for cleaner diesel fuel and the availability of newer technology and nanotechnology.
This new 2012 study on refinery catalysts study has 683 pages, 188 tables and figures. Worldwide markets are poised to achieve steady growth as countries impose stricter environment controls on the manufacture and use of fossil fuels.
Hydroprocessing catalysts are used to create cleaner fuels--especially ULSD. Demand for cleaner fuels is driving the market. Refining catalysts are experiencing strong growth this year. New fuel standards are coupled with refinery increasing use of heavier and dirtier feedstocks and major additions to refining capacity. Refining catalysts are moving to a more balanced market. Producers of fluid catalytic cracking (FCC) catalysts had a surge in demand. The market is shifting from one characterized by oversupply to a more stable sales effort. Hydroprocessing catalyst supply-demand is evolving.
Hydroprocessing catalysts are the fastest-growing refinery catalysts. These catalysts help control and improve the operational efficiencies in the petroleum refining process. Demand is lower for the more mature FCC catalysts than the hydroprocessing catalysts. Hydroprocessing catalysts have passed FCC catalysts, becoming the largest segment of the refinery catalyst market.
Low sulfur regulations in developed countries, implementation of some sulfur restrictions in China, India and Mexico, and other countries is a significant market driving force. Increasingly higher sulfur-content is present in oil coming out of the ground.
The rapidly increasing demand for gasoline and diesel has increased the requirement for raw materials for their production. The limited supply of raw materials increases the overall cost of production.
Reforming catalysts are fundamental to the modernization of product reformate. They contain hydrocarbons with more complex molecular shapes having higher octane values than the hydrocarbons in the naphtha feedstock. The process separates hydrogen atoms from the hydrocarbon molecules and produces significant amounts of byproduct hydrogen gas.
Hydrogen is useful for fuel cells, meaning that refineries could become environments for generating electricity. Hydrogen is useful in stationary fuel cells that are evolving a market for providing local power in campus environments. Local power generation is becoming more valued as people realize that the cost of conditioning electricity for the grid is an unnecessary expense in local power environments.
Stationary fuel cells represent the base for distributed power generation worldwide. No more new coal plants, no mare extensions to the grid. Distributed power has become mainstream. Distributed generation (DG) refers to power generation at the point of consumption. The use of hydrogen and the manufacture of hydrogen in refinery environments could become significant aspect of markets.
According to Susan Eustis, the lead author of the study, "These factors have attracted manufacturers to refinery catalysts, as these help extract relatively more diesel and gasoline from the same amount of crude oil. 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. 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."
Generating power on-site, rather than centrally, eliminates the cost, complexity, interdependencies, and inefficiencies associated with transmission and distribution. Like distributed computing (i.e. the PC) and distributed telephony (i.e. the mobile phone), distributed power generation shifts control to the consumer.
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.
Hydrotreating catalysts will continue to achieve the best growth in the petroleum refining market, aided by the increasingly sour nature of the crude petroleum supplied to the market. Efforts by Brazil, China, India and Russia to improve their air quality by the introduction of low-sulfur fuels are ongoing. Hydrocracking and fluid catalytic cracking (FCC) catalysts achieve advances, particularly in Asia as the growing motor vehicle fleet stimulates new gasoline and diesel fuel demand.
Advanced Refining Technologies (ART)
Clariant AG / Süd-Chemie AG
IFP Energies nouvelles Group Company / Axens
Honeywell / UOP
Sinopec China Petrochemical Corporation
Clean Diesel Technologies
Clean Diesel Technologies / Catalytic Solutions
Headwaters Technology Innovation (HTI)
UNICAT Catalyst Technologies
Indian Oil Corporation
Petrobras Partnership with Albemarle
Quantiam Technologies Inc.
Rive Technology and Grace Davison
Shell / Sekiyu
Shoaibi Group / General Technology & Systems Company Ltd (GENTAS)
Selected Refinery Catalyst Companies
Emerging Catalyst Companies
FCC Catalyst & Additive Suppliers
Government Agencies and Other Organizations
WinterGreen Research authors use a structured, consistent, and detailed research approach. The methodology supports an analytical approach to market research. In depth comparisons are made of many aspects of the market. Data relating to Industry segments is developed to permit presentation of forecasts and market share positioned to have substantive value.
Full spectrum research and information services, including market reports, customized research, and customer interviewing are available, reports and research are positioned to provide strategic value to industry participants, strategic planners, and product managers.
New systems combine sales tools and independent industry analysis, seeking to leverage the expertise of the sales force and combine it with the skepticism of the analysts to provide accurate return on investment analysis.
In this report, the global Water Testing and Analysis market is valued at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022. Geographically, this report split global into several key Regions, with ...
November 2017 | $4000 |View Details>>
In this report, the global Zero Liquid Discharge System (ZLD) market is valued at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022. Geographically, this report is segmented into several key Regions, ...
November 2017 | $2900 |View Details>>
In this report, the EMEA Artificial Wetland market is valued at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022. Geographically, this report split EMEA into Europe, the Middle East and Africa, ...
November 2017 | $4000 |View Details>>
This report studies Industrial Wastewater Treatment Plants in Global market, especially in North America, China, Europe, Southeast Asia, Japan and India, with production, revenue, consumption, import and export in these regions, from 2012 to 2016, and forecast to 2022. This report focuses on top manufacturers in global market, with production, price, ...
November 2017 | $3500 |View Details>>
UPCOMING MARKET RESEARCH REPORTS
2017 © Copyright Big Market Research