Markets, Technologies, Sustainable Processes and Cases Studies of Aromatic Commodities, 4 Volume Set
Buch, Englisch, 2416 Seiten, Format (B × H): 170 mm x 244 mm, Gewicht: 5131 g
ISBN: 978-3-527-34784-1
Verlag: WILEY-VCH
Explore the wide array of uses for aromatic hydrocarbons in this comprehensive reference
Aromatics are a class of compounds—normally but not exclusively organic—which tend to be produced as by-products of various industrial processes. Their importance as petrochemical materials in themselves, along with the range of inter-relations between different aromatic chemicals, creates a complex and opportunity-filled market for aromatics.
Industrial Arene Chemistry provides a thorough look at the conventional techniques required to use and produce these aromatic hydrocarbons. Beginning with an overview of the global aromatic market—including, but not limited to, manufacturers, markets of BTX, and downstream functional aromatics, aromatics derived from renewable sources, and economic forecasts—the book will also explore the impact shifting environmental factors will have on the future of aromatic chemistry. The text further explores BTX production processes differentiated according to the raw materials used. Importantly, this will establish the importance and growth of the biobased chemical industry.
Industrial Arene Chemistry readers will also find: - Case studies that describe major elements of specific technologies prototyped by contributors/companies as part of ongoing market development efforts
- Process chapters that include summaries of the conventional techniques and a more detailed discussion of recent high-impact studies
- Recent advances in conventional aromatic reactions, including alkylation, acylation and carboxylation, hydrogenation/reduction, oxidation, nitration/amination, sulfonation, and halogenation
Industrial Arene Chemistry is a useful reference for chemists and chemical engineers who work with aromatics.
Autoren/Hrsg.
Fachgebiete
- Technische Wissenschaften Verfahrenstechnik | Chemieingenieurwesen | Biotechnologie Verfahrenstechnik, Chemieingenieurwesen
- Technische Wissenschaften Verfahrenstechnik | Chemieingenieurwesen | Biotechnologie Chemische Verfahrenstechnik
- Naturwissenschaften Chemie Physikalische Chemie Chemische Reaktionen, Katalyse
Weitere Infos & Material
Volume 1
Foreword xxi
Preface xxv
Section 1 The Markets for Aromatic Commodities 1
1 The Fossil-Based BTX Market 3
Andy Nicholson
2 The Downstream Functional Aromatics Market 19
Andy Nicholson
3 Crude Oil to Chemicals: Industry Development and Strategic Implications 43
Rong J. Chang
Section 2 BTX, Naphthalene and Higher Aromatics from Fossil-Based Sources 71
4 BTX from Light Hydrocarbons 73
Minghui Tan, Li Tan, Guohui Yang, and Yisheng Tan
5 BTX Aromatics from Naphtha Hydrocarbons 111
Arno de Klerk
6 BTX Aromatics from Heavier Material than Naphtha 145
Arno de Klerk
7 BTX Aromatics from Other Conversion Processes 171
Arno de Klerk
8 Bi- and Tri-nuclear Aromatic Production 195
Arno de Klerk
9 Extraction Separation of Aromatics 209
Weize Wu
10 The Honeywell UOP CCR PlatformingTM Process for BTX Production (Case Study) 269
Bryan Egolf, David Lafyatis, Manuela Serban, Ka Lok, and Mark Lapinski
11 The Honeywell UOP ParexTM Process: Fifty Years of Growth for the Petrochemical Industry (Case Study) 297
Patrick C. Whitchurch and James A. Johnson
12 Forty Years of Xylene Isomerization Technology Deployment at ExxonMobil (Case Study) 327
Michel Molinier, Robert G. Tinger, Arnaud Cotte, and Jeevan S. Abichandani
13 ExxonMobil PxMaxSM Process: Production of Paraxylene (Case Study) 357
Michel Molinier and Jeevan S. Abichandani
14 BP/Amoco Paraxylene Crystallization Technology (Case Study) 383
Jeffrey A. Amelse
15 Reactions and Mechanisms of Xylene Isomerization and Related Processes 403
Jeffrey A. Amelse
16 Honeywell UOP Tatoray Process: Maximizing Feed Utilization for Aromatics Production (Case Study) 439
Raymond Shih and Eseoghene Jeroro
17 The Honeywell UOP MX SorbexTM Process: Enabling Growth of PET Resin Applications (Case Study) 453
James Johnson and Patrick Whitchurch
Section 3 Aromatics from Methanol and Synthesis Gas 479
18 Methanol-to-Aromatics Compounds (MTA) Process 481
Ning Wang, Huiqiu Wang, Hao Xiong, Wenlong Song, and Weizhong Qian
19 Carbon Monoxide and Carbon Dioxide for Aromatics Production 533
Yuebing Xu, Bing Liu, Feng Jiang, and Xiaohao Liu
Volume 2
Foreword xxiii
Preface xxvii
Section 4 The Chemistry of Downstream Functional Aromatics 555
Section 4.1 Alkylation 555
20 Homogeneous Friedel–Crafts Alkylation 557
Venkata D. B. C. Dasireddy, Gurwinder Singh, Stalin Joseph, Yoshihiro Sugi, and Ajayan Vinu
21 Heterogeneous Friedel–Crafts Alkylation 595
Yoichi Nishimura, Venkata D. B. C. Dasireddy, Stalin Joseph, Yoshihiro Sugi, and Ajayan Vinu
22 Badger Ethylbenzene Technology (Case Study) 645
Raghavender Bhoomi and Brian Maerz
23 Exelus Styrene Monomer (ExSyM) Process (Case Study) 673
Vamsi M. Vadhri, Tom Hickey, and Mitrajit Mukherjee
24 INEOS Phenol Cumene Chemistry (Case Study) 715
Ralf Bonmann, Manfred Weber, and Markus Weber
25 Linear Alkylbenzenes: An Overview of the Commercial HF and DetalTM Process Unit Alkylation Technology (Case Study) 729
Stephen Sohn and Phuong Do
26 Frontiers in Arene Chemistry: Direct Methylation of Benzene with Methane on Metal-Loaded Zeolites 747
Etsushi Tsuji and Naonobu Katada
Section 4.2 Acylation and Carboxylation 769
27 Acylation of Arenes 771
Chandrakanth R. Gadipelly, Gunjan Deshmukh, Suresh Bhargava, Selvakannan Periasamy, and Lakshmi Kantam Mannepalli
28 Carboxylation Reaction Based on the Direct and Indirect Uses of CO2: Sustainable Syntheses of C—CO2, O—CO2, and N—CO2 Bonds 807
Francesco Nocito and Angela Dibenedetto
Section 4.3 Reduction of Aromatic Nuclei 849
