Introduces the reader to the production of the products in a refinery
• Introduces the reader to the types of test methods applied to petroleum products, including the need for specifications • Provides detailed explanations for accurately analyzing and characterizing modern petroleum products • Rewritten to include new and evolving test methods • Updates on the evolving test methods and new test methods as well as the various environmental regulations are presented
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Petroleum (also called crude oil) is the term used to describe a wide variety of naturally occurring hydrocarbon-rich fluids that has accumulated in subterranean reservoirs and which exhibits considerably simple properties such as specific gravity/API gravity) and the amount of residuum (Table 1.1). More detailed inspections show considerable variations in color, odor, and flow properties that reflect the diversity of the origin of petroleum. From further inspections, variations also occur in the molecular types present in crude oil, which include compounds of nitrogen, oxygen, sulfur, metals (particularly nickel and vanadium), as well as other elements (ASTM D4175) (Speight, 2012a). Consequently, it is not surprising that petroleum can exhibit wide variations in refining behavior, product yields, and product properties (Speight, 2014a).
Table 1.1Illustration of the variation in petroleum properties—specific gravity/API gravity) and the amount of residuum
Petroleum
Specific gravity
API gravity
Residuum >1050°F (% w/w)
Agbami (Africa)
0.790
48.1
2.5
Alaska North Slope (US)
0.869
31.4
18.3
Alba (North Sea)
0.936
19.5
32.7
Alvheim Blend (North Sea)
0.850
34.9
13.1
Azeri BTC (Asia)
0.843
36.4
13.2
Badak (Indonesia)
0.830
38.9
2.0
Bahrain (Bahrain)
0.861
32.8
26.4
California (US)
0.858
33.4
23.0
Calypso (Trinidad and Tobago)
0.971
30.8
11.6
Dalia (Africa)
0.915
23.1
27.7
Dansk Underground Consortium (DUC) (Denmark)
0.860
33.5
18.2
Draugen (Europe)
0.826
39.9
6.4
Gimboa (Africa)
0.912
25.3
24.0
Grane (North Sea)
0.940
19.0
30.3
Hibernia Blend (Canada)
0.850
35.0
17.2
Iranian Light (Iran)
0.836
37.8
20.8
Iraq Light (Iraq)
0.844
36.2
23.8
Kearl (Canada)
0.918
22.6
31.9
Kutubu Bland (New Guinea)
0.802
44.8
12.0
Kuwaiti Light (Kuwait)
0.860
33.0
31.9
Marib Light (Yemen)
0.809
43.3
7.7
Medanito (Argentina)
0.860
33.0
20.6
Mondo (Africa)
0.877
29.9
22.1
Oklahoma (US)
0.816
41.9
20.0
Oman (Oman)
0.873
30.5
30.5
Pennsylvania (US)
0.800
45.4
2.0
Peregrino (Brazil)
0.974
13.7
40.5
Saudi Arabia
0.840
37.0
27.5
Saxi Batuque Blend (Africa)
0.856
33.9
14.6
Terra Nova (Canada)
0.859
0.9
16.0
Texas (US)
0.827
39.6
15.0
Texas (US)
0.864
32.3
27.9
Venezuela
0.950
17.4
33.6
Zakhum Lower (Abu Dhabi)
0.822
40.5
14.3
Over the past four decades, the petroleum being processed in refineries has becoming increasingly heavier (higher amounts of residuum) and higher sulfur content (Speight, 2000, 2014a; Speight and Ozum, 2002; Hsu and Robinson, 2006; Gary et al., 2007). Market demand (market pull) dictates that residua must be upgraded to higher-value products (Speight and Ozum, 2002; Hsu and Robinson, 2006; Gary et al., 2007; Speight, 2014a). In short, the value of petroleum depends upon its quality for refining and whether or not the product slate and product yields can be obtained to fit market demand.
Thus, process units in a refinery require analytical test methods that can adequately evaluate feedstocks and monitor product quality (Drews, 1998; Nadkarni, 2000, 2011; Rand, 2003; Totten, 2003). In addition, the high sulfur content of petroleum and regulations limiting the maximum sulfur content of fuels makes sulfur removal a priority in refinery processing. Here again, analytical methodology is key to the successful determination of the sulfur compound types present and their subsequent removal.
Upgrading residua involves processing (usually conversion) into a more salable, higher-valued product. Improved characterization methods are necessary for process design, crude oil evaluation, and operational control. Definition of the boiling range and the hydrocarbon-type distribution in heavy distillates and in residua is increasingly important. Feedstock analysis to provide a quantitative boiling range distribution (that accounts for non-eluting components) as well as the distribution of hydrocarbon types in gas oil and higher-boiling materials is important in evaluating feedstocks for further processing.
Sulfur reduction processes are sensitive to both amount and structure of the sulfur compounds being removed. Tests that can provide information about both are becoming increasingly important, and analytical tests that provide information about other constituents of interest (e.g., nitrogen, organometallic constituents) are also valuable and being used for characterization.
But before emerging into the detailed aspects of petroleum product analysis, it is necessary to understand the nature of petroleum as well as the refinery processes required to produce petroleum products. This will present to the reader the background that is necessary to understand petroleum and the processes used to convert it to products. The details of the chemistry are not presented here and can be found elsewhere (Speight, 2000, 2014a; Speight and Ozum, 2002; Hsu and Robinson, 2006; Gary et al., 2007).
1.2 PERSPECTIVES
The following sections are included to introduce the reader to the distant historical and recent historical aspects of petroleum analysis and to show the glimmerings of how it has evolved during the twentieth century and into the twenty-first century. Indeed, in spite of the historical use of petroleum and related materials, the petroleum industry is a modern industry having come into being in 1859. From these comparatively recent beginnings, petroleum analysis has arisen as a dedicated science.
1.2.1 Historical Perspectives
Petroleum is perhaps the most important substance consumed in modern society. The word petroleum, derived from the Latin petra and oleum, means literally rock oil and refers to hydrocarbons that occur widely in the sedimentary rocks in the form of gases, liquids, semisolids, or solids. Petroleum provides not only raw materials for the ubiquitous plastics and other products, but also fuel for energy, industry, heating, and transportation.
The history of any subject is the means by which the subject is studied in the hopes that much can be learned from the events of the past. In the current context, the occurrence and use of petroleum, petroleum derivatives (naphtha), heavy oil, and bitumen are not new. The use of petroleum and its derivatives was practiced in pre-Christian times and is known largely through historical use in many of the older civilizations (Henry, 1873; Abraham, 1945; Forbes, 1958a, 1958b, 1959, 1964; James and Thorpe, 1994). Thus, the use of petroleum and the development of related technology are not such a modern subject as we are inclined to believe. However, the petroleum industry is essentially a twentieth-century industry, but to understand the evolution of the industry, it is essential to have a brief understanding of the first uses of petroleum.
Briefly, petroleum and bitu...
Table of contents
COVER
CHEMICAL ANALYSIS
TITLE PAGE
COPYRIGHT PAGE
PREFACE
1 PETROLEUM AND PETROLEUM PRODUCTS
2 ANALYTICAL METHODS
3 SAMPLING AND MEASUREMENT
4 GASES
5 NAPHTHA AND SOLVENTS
6 GASOLINE
7 AVIATION AND MARINE FUELS
8 KEROSENE
9 DIESEL FUEL
10 DISTILLATE FUEL OIL
11 RESIDUAL FUEL OIL
12 WHITE OIL
13 LUBRICATING OIL
14 GREASE
15 WAX
16 RESIDUA AND ASPHALT
17 COKE, CARBON BLACK, AND GRAPHITE
18 USE OF THE DATA
APPENDIX: TABLES OF ASTM STANDARD TEST METHODS FOR PETROLEUM AND PETROLEUM PRODUCTS
CONVERSION FACTORS
GLOSSARY
INDEX
CHEMICAL ANALYSIS: A SERIES OF MONOGRAPHS ON ANALYTICAL CHEMISTRY AND ITS APPLICATIONS
END USER LICENSE AGREEMENT
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