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Natural gas engineering handbook /

The demand for energy consumption is increasing rapidly. To avoid the impending energy crunch, more producers are switching from oil to natural gas. While natural gas engineering is well documented through many sources, the computer applications that provide a crucial role in engineering design and...

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Detalles Bibliográficos
Clasificación:	Libro Electrónico
Autor principal:	Guo, Boyun
Otros Autores:	Ghalambor, Ali
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	Houston, TX : Gulf Pub. Company, 2012.
Edición:	2nd ed.
Temas:	Natural gas > Handbooks, manuals, etc. Petroleum engineering > Handbooks, manuals, etc. Gaz naturel > Guides, manuels, etc. Technique du p�etrole > Guides, manuels, etc. Natural gas Petroleum engineering CD-ROMs. handbooks. Handbooks and manuals Handbooks and manuals. Guides et manuels.
Acceso en línea:	Texto completo

MARC


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100	1		\|a Guo, Boyun.
245	1	0	\|a Natural gas engineering handbook / \|c Boyun Guo and Ali Ghalambor.
250			\|a 2nd ed.
260			\|a Houston, TX : \|b Gulf Pub. Company, \|c 2012.
300			\|a 1 online resource
336			\|a text \|b txt \|2 rdacontent
337			\|a computer \|b c \|2 rdamedia
338			\|a online resource \|b cr \|2 rdacarrier
504			\|a Includes bibliographical references and index.
588	0		\|a Print version record.
520			\|a The demand for energy consumption is increasing rapidly. To avoid the impending energy crunch, more producers are switching from oil to natural gas. While natural gas engineering is well documented through many sources, the computer applications that provide a crucial role in engineering design and analysis are not well published, and emerging technologies, such as shale gas drilling, are generating more advanced applications for engineers to utilize on the job. To keep producers updated, Boyun Guo and Ali Ghalambor have enhanced their best-selling manual, Natural Gas Engineering Handbook, to continue to provide upcoming and practicing engineers the full scope of natural gas engineering with a computer-assisted approach. This must-have handbook includes: A focus on real-world essentials rather than theoryIllustrative examples throughout the textWorking spreadsheet programs for all the engineering calculations on a free and easy to use companion siteExercise problems at the end of every chapter, including newly added questions utilizing the spreadsheet programsExpanded sections covering today's technologies, such as multi-fractured horizontal wells and shale gas wells.
505	0	0	\|g 1 \|t Introduction \|g 1 -- \|g 1.1 \|t What Is Natural Gas? \|g 1 -- \|g 1.2 \|t Utilization of Natural Gas \|g 2 -- \|g 1.3 \|t Natural Gas Industry \|g 4 -- \|g 1.4 \|t Natural Gas Reserves \|g 5 -- \|g 1.5 \|t Types of Natural Gas Resources \|g 6 -- \|g 1.6 \|t Future of the Natural Gas Industry \|g 7 -- \|g 2 \|t Properties of Natural Gas \|g 13 -- \|g 2.1 \|t Introduction \|g 13 -- \|g 2.2 \|t Specific Gravity \|g 13 -- \|g 2.3 \|t Pseudocritical Properties \|g 14 -- \|g 2.4 \|t Viscosity \|g 17 -- \|g 2.5 \|t Compressibility Factor \|g 20 -- \|g 2.6 \|t Gas Density \|g 26 -- \|g 2.7 \|t Formation Volume Factor and Expansion Factor \|g 26 -- \|g 2.8 \|t Compressibility of Natural Gas \|g 27 -- \|g 2.9 \|t Real Gas Pseudopressure \|g 28 -- \|g 2.10 \|t Real Gas Normalized Pressure \|g 30 -- \|g 3 \|t Gas Reservoir Deliverability \|g 35 -- \|g 3.1 \|t Introduction \|g 35 -- \|g 3.2 \|t Analytical Methods \|g 35 -- \|g 3.3 \|t Empirical Methods \|g 38 -- \|g 3.4 \|t Construction of Inflow Performance Relationship Curve \|g 43 -- \|g 3.5 \|t Horizontal Wells \|g 49 -- \|g 3.6 \|t Multi-Fractured Horizontal Wells \|g 50 -- \|g 3.7 \|t Shale Gas Wells \|g 54 -- \|g 3.8 \|t Well Deliverability Testing \|g 56 -- \|g 3.8.1 \|t Flow-After-Flow Test \|g 57 -- \|g 3.8.2 \|t Isochronal Test \|g 59 -- \|g 3.8.3 \|t Modified Isochronal Test \|g 61 -- \|g 4 \|t Wellbore Performance \|g 67 -- \|g 4.1 \|t Introduction \|g 67 -- \|g 4.2 \|t Single-Phase Gas Well \|g 68 -- \|g 4.2.1 \|t The Average Temperature and Compressibility Factor Method \|g 68 -- \|g 4.2.2 \|t The Cullender and Smith Method \|g 72 -- \|g 4.3 \|t Mist Flow in Gas Wells \|g 74 -- \|g 5 \|t Choke Performance \|g 81 -- \|g 5.1 \|t Introduction \|g 81 -- \|g 5.2 \|t Sonic and Subsonic Flow \|g 81 -- \|g 5.3 \|t Dry Gas Flow through Chokes \|g 82 -- \|g 5.3.1 \|t Subsonic Flow \|g 82 -- \|g 5.3.2 \|t Sonic Flow \|g 85 -- \|g 5.3.3 \|t Temperature at Choke \|g 85 -- \|g 5.3.4 \|t Applications \|g 86 -- \|g 5.4 \|t Wet Gas Flow through Chokes \|g 92 -- \|g 6 \|t Well Deliverability \|g 97 -- \|g 6.1 \|t Introduction \|g 97 -- \|g 6.2 \|t Nodal Analysis \|g 97 -- \|g 6.2.1 \|t Analysis with the Bottom Hole Node \|g 98 -- \|g 6.2.2 \|t Analysis with Wellhead Node \|g 101 -- \|g 6.3 \|t Production Forecast \|g 106 -- \|g 7 \|t Separation \|g 113 -- \|g 7.1 \|t Introduction \|g 113 -- \|g 7.2 \|t Separation of Gas and Liquids \|g 113 -- \|g 7.2.1 \|t Principles of Separation \|g 114 -- \|g 7.2.2 \|t Types of Separators \|g 115 -- \|g 7.2.3 \|t Factors Affecting Separation \|g 118 -- \|g 7.2.4 \|t Separator Design \|g 120 -- \|g 7.3 \|t Stage Separation \|g 129 -- \|g 7.4 \|t Flash Calculation \|g 131 -- \|g 7.5 \|t Low-Temperature Separation \|g 138 -- \|g 8 \|t Dehydration \|g 143 -- \|g 8.1 \|t Introduction \|g 143 -- \|g 8.2 \|t Dehydration of Natural Gas \|g 143 -- \|g 8.2.1 \|t Water Content of Natural Gas Streams \|g 144 -- \|g 8.2.2 \|t Dehydration Systems \|g 146 -- \|g 8.2.3 \|t Glycol Dehydrator Design \|g 155 -- \|g 8.3 \|t Removal of Acid Gases \|g 167 -- \|g 8.3.1 \|t Iron-Sponge Sweetening \|g 168 -- \|g 8.3.2 \|t Alkanolamine Sweetening \|g 168 -- \|g 8.3.3 \|t Glycol/Amine Process \|g 169 -- \|g 8.3.4 \|t Sulfinol Process \|g 170 -- \|g 9 \|t Compression and Cooling \|g 173 -- \|g 9.1 \|t Introduction \|g 173 -- \|g 9.2 \|t Types of Compressors \|g 174 -- \|g 9.3 \|t Selection of Reciprocating Compressors \|g 176 -- \|g 9.3.1 \|t Volumetric Efficiency \|g 178 -- \|g 9.3.2 \|t Stage Compression \|g 179 -- \|g 9.3.3 \|t Isentropic Horsepower \|g 181 -- \|g 9.4 \|t Selection of Centrifugal Compressors \|g 189 -- \|g 9.5 \|t Selection of Rotary Blowers \|g 194 -- \|g 10 \|t Volumetric Measurement \|g 199 -- \|g 10.1 \|t Introduction \|g 199 -- \|g 10.2 \|t Measurement with Orifice Meters \|g 199 -- \|g 10.2.1 \|t Orifice Equation \|g 201 -- \|g 10.2.2 \|t Recording Charts \|g 206 -- \|g 10.2.3 \|t Computation of Volumes \|g 209 -- \|g 10.2.4 \|t Selection of Orifice Meter \|g 212 -- \|g 10.3 \|t Other Methods of Measurement \|g 212 -- \|g 10.3.1 \|t Displacement Metering \|g 212 -- \|g 10.3.2 \|t Turbine Meter \|g 214 -- \|g 10.3.3 \|t Elbow Meter \|g 214 -- \|g 10.4 \|t Natural Gas Liquid Measurement \|g 215 -- \|g 11 \|t Transportation \|g 219 -- \|g 11.1 \|t Introduction \|g 219 -- \|g 11.2 \|t Pipeline Design \|g 219 -- \|g 11.2.1 \|t Sizing Pipelines \|g 220 -- \|g 11.2.2 \|t Pipeline Wall Thickness \|g 250 -- \|g 11.3 \|t Transportation of LNG \|g 257 -- \|g 12 \|t Special Problems \|g 263 -- \|g 12.1 \|t Introduction \|g 263 -- \|g 12.2 \|t Liquid Loading on Gas Wells \|g 263 -- \|g 12.2.1 \|t Turner's Method \|g 264 -- \|g 12.2.2 \|t Guo's Method \|g 267 -- \|g 12.2.3 \|t Comparison of Methods \|g 273 -- \|g 12.2.4 \|t Solutions to the Liquid Loading Problem \|g 275 -- \|g 12.3 \|t Hydrate Control \|g 276 -- \|g 12.3.1 \|t Hydrate-Forming Conditions \|g 277 -- \|g 12.3.2 \|t Preventing Hydrate Formation \|g 281 -- \|g 12.4 \|t Pipeline Cleaning \|g 287 -- \|g 12.4.1 \|t Pigging System \|g 290 -- \|g 12.4.2 \|t Selection of Pigs \|g 298 -- \|g 12.4.3 \|t Major Applications \|g 306 -- \|g 12.4.4 \|t Pigging Procedure \|g 310.
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650		0	\|a Petroleum engineering \|v Handbooks, manuals, etc.
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700	1		\|a Ghalambor, Ali.
776	0	8	\|i Print version: \|a Guo, Boyun. \|t Natural gas engineering handbook. \|b 2nd ed. \|d Houston, TX : Gulf Pub. Company, 2012 \|z 1933762411 \|w (DLC) 2012005312 \|w (OCoLC)781277871
856	4	0	\|u https://sciencedirect.uam.elogim.com/science/book/9781933762418 \|z Texto completo

Natural gas engineering handbook /

MARC

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