Petrochemical (Petroleum And Chemical) Catalysts: The U.S. Market: CHM027D
Catalysts for chemical, petrochemical, and petroleum refining processes constitute a significant enterprise in the United States. BCC estimates complete merchant gross sales of those merchandise in the U.S. in 2010 at about $four.1 billion. The entire U.S. market value is forecast to increase at a compound annual progress rate (CAGR) of about 2.5% to achieve more than $4.6 billion by 2015.
This research covers a lot of a very powerful technological, financial, political, and environmental issues in the U.S. catalyst trade. It’s primarily a study of U.S. Indian markets, however due to the global nature of chemistry, it touches on some noteworthy international activities; these are primarily these that can have an effect on the U.S. market, reminiscent of imports/exports and, more and more, foreign firms that function there.
All market worth estimates and forecasts are given in constant 2010 dollars, and development rates are all compounded, offered as compounded annual growth charges or CAGRs. Market values are all rounded to the nearest million dollars. Because of rounding to the nearest million, some growth charges could not agree precisely with figures out there tables, especially for small values.
This report is segmented into nine chapters, of which this is the first, and an appendix including a glossary of some essential terms, abbreviations, acronyms, and so on.
The Summary encapsulates our findings and conclusions and includes a summary main market table of estimates ad forecasts. It is the place where the busy government can find the most important findings of the research in abstract format.
We follow with an overview of catalysis and catalysts with some historical past of the principal sorts of catalysts and catalytic reactions, and processes and materials used to provide catalysts. Its intent is to introduce the reader to the sphere of chemical catalysis.
The following chapter discusses and forecasts markets for catalysts utilized in chemical processes; that is, processes that often don’t take place in a petroleum refinery. We subdivide the market into catalysts for six massive lessons of catalytic chemical reactions: hydrogenation, dehydrogenation, natural synthesis, oxidation, polymerization, and synthesis gasoline/syngas processes. Our market analysis and forecast is for base 12 months 2010 and forecast year 2015, all in constant 2010 dollars.
Subsequent we discuss and forecast the markets for catalysts used in petroleum refining. Processes analyzed and forecasted embody the six fundamental courses of catalytic refining processes: alkylation, fluid catalytic cracking (FCC), hydrocracking, hydrotreating/ desulfurization, isomerization, and catalytic reforming. In addition, we cover fuel processing, often devoted to sulfur removal.
The following chapter is dedicated to catalyst technologies, with emphasis on both established and new catalyst technologies. These continue to be exciting occasions in catalysts, for instance, with continuing improvement of extra homogeneous catalysts, development and effective-tuning of single-site catalysts for polymerization of main plastics, chiral catalysts for tremendous chemical syntheses, and others.
The following chapter covers some important facets of government regulation and public coverage. Catalysts usually are not as regulated as many other industries are, since they don’t seem to be supposed to be in last products, however political forces have pushed the petroleum refining industry for years and proceed to do so until this day, with greater emphasis on cleaner burning fuels. For that reason our prime dialogue is on governmental regulations regarding refined motor fuels, both gasoline and diesel.
The next chapter covers the structure and activities of the catalyst trade, with emphasis on the most important home producers and suppliers, customer service, and the growing pattern in supplier-person alliances. We briefly focus on some international facets of the catalyst business, together with the global nature of the business, main international-owned provider firms that operate within the United States, and imports and exports.
Our final narrative chapter consists of profiles j w pierson petroleum products of those provider companies that BCC Research considers to be among the most important in these businesses. There are lots of extra companies that operate in a number of area of interest markets, however in our opinion they aren’t important enough to be considered main producers and suppliers.
We end with an appendix, a glossary of some important terms, abbreviations, acronyms, and so forth. used in the chemical, petroleum, and catalyst industries.
The scope of this research is restricted to catalysts used in the chemical course of trade (CPI) in course of operations. We outline the CPI broadly to incorporate petroleum refining (an trade generally referred to as the hydrocarbon processing trade or HPI). By confining our research to process j w pierson petroleum products catalysts, we don’t cowl a major market, one which has many studies by itself, of environmental catalysts, primarily for air pollution management. Because such environmental catalysts are chemical catalysts, we do introduce them and their functions in the Overview chapter; however, we do not make market estimates or forecasts for environmental catalysts since they’re outdoors the scope of this examine.
Since this examine focuses on chemical catalysts, we additionally exclude from our market analyses biocatalysts (akin to enzymes), electrocatalysts, photocatalysts (catalysts that enable mild or different waves in the electromagnetic spectrum to affect reactions and processes), and other exotic ideas resembling sonocatalysts (excessive-frequency ultrasound waves that generate heat and strain). These are all thrilling fields of research, however are outdoors the scope of this report. We do introduce some of these concepts in the j w pierson petroleum products Expertise chapter.
Thus, please note that there are some new and exciting areas of catalysis, mentioned within the Overview and/or Technology chapters, that are either (1) exterior the scope of this examine (e.g. environmental catalysts) or (2) new, cutting-edge technologies like photocatalysts, which are too new and small to try to analyze and forecast. The products and markets that we analyze and for which we estimate and forecast gross sales are those within the chapters on business catalysts for chemical and refinery processes.
For consistency in model and format, trade names are indicated by preliminary higher case letters, whereas generic names are all in decrease case. Because many chemical names are long and complicated, we regularly use abbreviations, acronyms, or chemical formulae. Many of these acronyms, comparable to HDPE (high-density polyethylene) and PVC (polyvinyl chloride) for widespread polymers, are in capital letters.
Chemical elements and compounds can all be designated by chemical symbols and formulae; after introducing the aspect or compound we often use such symbols, akin to Ni for nickel and HF for hydrofluoric acid. Our glossary at the end accommodates definitions and explanations for many of a very powerful abbreviations and acronyms. We do assume that almost all readers have had no less than an preliminary introduction to chemistry and perceive the ideas of chemical nomenclature.
Dr. J. Charles Forman has greater than 50 years of chemical engineering and business experience within the healthcare business, main a significant not-for-revenue instructional affiliation, and as an independent analyst and technical author. He is nicely versed on the worldwide chemical process industries, with specialization in healthcare, petroleum and petrochemicals, specialty and agrochemicals, plastics, and packaging. He has written many market analysis experiences for BCC Analysis on subjects together with polymers and plastic packaging, petroleum processing, healthcare coverage and products, meals and feed additives, chemicals/petrochemicals/specialty chemicals, pesticides, and biotechnology. He received an SB degree from MIT, an MS and Ph.D.