Buch, Englisch, 744 Seiten, Format (B × H): 159 mm x 237 mm, Gewicht: 1032 g
Reihe: McGraw-Hill Handbooks
Buch, Englisch, 744 Seiten, Format (B × H): 159 mm x 237 mm, Gewicht: 1032 g
Reihe: McGraw-Hill Handbooks
ISBN: 978-0-07-141042-7
Verlag: McGraw Hill LLC
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
ContributorsPrefaceAcknowledgmentsPart 1: Acetic AcidChapter 1.1: Chiyoda Acetic Acid Process ACETICA(R) (Yasuo Hosono)Part 2: AnilineChapter 2.1: DuPont/KBR Aniline Process (Eric W. Wong and Ronald Birkhoff)Part 3: 1,3-ButadieneChapter 3.1: BASF Butadiene Extraction Technology (Robert Brunner)Chapter 3.2: UOP KLP 1,3-Butadiene from Acetylene Process (Steve Krupa, Tim Foley and Stephen McColl)Part 4: CumeneChapter 4.1: ABB Lummus Global Cumene Production via CDCumene(R) Technology (Stephen Pohl and Sanjeev Ram)Chapter 4.2: UOP Q-Max(TM) Process (Gary A. Peterson and Robert J. Schmidt)Part 5: EthylbenzeneChapter 5.1: Lummus/UOP Liquid-Phase EBOne Process and CDTECH EB(R) Process (Stephen Pohl and Sanjeev Ram)Chapter 5.2: Polimeri Europa Ethylbenzene Process (Fabio Assandri and Elena Bencini)Chapter 5.3: ExxonMobil/Badger Ethylbenzene Technology Brian Maerz and C. Morris Smith)Part 6: EthyleneChapter 6.1: ABB Lummus Global SRT(R) Cracking Technology for the Production of Ethylene (Sanjeev Kapur)Chapter 6.2: Stone & Webster Ethylene Technology Colin P. Bowen)Chapter 6.3: KBR SCORE(TM) Ethylene Technology (Steven Borsos and Stephen Ronczy)Part 7: MethanolChapter 7.1: Lurgi MegaMethanol(R) Technology (Alexander Frei)Part 8: Oxo AlcoholsChapter 8.1: Johnson Mattey Oxo Alcohols Process (Jane Butcher and Geoff Reynolds)Part 9: Phenols and AcetoneChapter 9.1: Polimeri Europa Cumene-Phenol Processes (Maurizio Ghirardini and Maurizio Tampieri)Chapter 9.2: Sunoco/UOP Phenol Process (Robert J. Schmidt)Chapter 9.3: KBR Phenol Process (Alan Moore and Ronald Birkhoff)Chapter 9.4: QBIS(TM) Process for High-Purity Bisphenol A (Ed Fraini, Don West and George Mignin)Part 10: Propylene and Light OlefinsChapter 10.1: Lurgi MTP(R) Technology (Waldemar Liebner)Chapter 10.2: UOP/Hydro MTO Process (Peter R. Pujado and James M. Andersen)Chapter 10.3: UOP Oleflex(TM) Process (Joseph Gregor and Daniel Wei)Chapter 10.4: ABB Lummus Global Propylene Production via Olefins Conversion Technology (Catherine A. Berra and James T. C. Wu)Chapter 10.5: Propylene via CATOFIN(R) Propane Dehydrogenation Technology (V. K. Arora)Part 11: StyreneChapter 11.1: Lummus/UOP "Classic" Styrene Technology and Lummus/UOP SMART(TM) Styrene Technology (Stephen Pohl and Sanjeev Ram)Chapter 11.2: Stone & Webster (Badger) Styrene Technology (Vincent Welch)Chapter 11.3: Polimeri Europa Styrene Process Technology (Leonardo Trentini and Armando Galeotti)Part 12: Terephthalic AcidChapter 12.1: EPTA: The Lurgi/Eastman/SK Process (Frank Castillo-Welter)Part 13: XylenesChapter 13.1: ExxonMobil PxMaxSM p-Xylene Toluene (Terry W. Bradley)Chapter 13.2: ExxonMobil XyMaxSM Xylene Isomerization (Terry W. Bradley)Chapter 13.3: UOP Parex(TM) Process for p-Xylene Production (Scott E. Commissaris)Part 14: PolyethyleneChapter 14.1: Basell Spherilene Technology for LLDPE and HDPE Production (Maurizio Dorini and Gijs ten Berge)Chapter 14.2: Borstar LLDPE and HDPE Technology (Tarja Korvenoja, Henrik Andtsjo, Klaus Nyfors, and Gunnar Berggren)Chapter 14.3: Chevron Philips Slurry-Loop-Reactor Process for Polymerizing Linear Polyethylene (Mike Smith)Chapter 14.3: ExxonMobil High-Pressure Process Technology for LDPE (Charles E. Schuster)Chapter 14.5: Polimeri Europa Polyethylene High-Pressure Technologies (Mauro Mirra)Chapter 14.6: Basell Hostalen Technology for Bimodal HDPE Production (Dr. Reinhard Kuehl and Gijs ten Berge)Chapter 14.7: Basell Lupotech G Technology for HDPE and MDPE Production (Cyrus Ahmadzade and Gijs ten Berge)Chapter 14.8: Basell Lupotech T Technology for LDPE and EVA-Copolymer Production (Andre-Armand Finette and Gijs ten Berge)Chapter 14.9: UNIPOL(TM) PE Gas-Phase Process: Delivering Value to the PE Industry (Mardee McCown Kaus)Chapter 14.10: NOVA Chemicals SCLAIRTECH(TM) LLDPE/HDPE Swing Technology (Keith Wiseman)Part 15: Polyethylene TerephthalateChapter 15.1: UOP Sinco Solid-State Polymerization Process for the Production of PET Resin and Technical Fibers (Stephen M. Metro and James F. McGehee)Part 16: PolypropyleneChapter 16.1: Basell Spheripol Technology for PP Production (Maurizio Dorini and Gijs ten Berge)Chapter 16.2: Basell Spherizone Technology for PP Production (Riccardo Rinaldi and Gijs ten Berge)Chapter 16.3: Borstar Polypropylene Technology (Jouni Kivela, Helge Grande, and Tarja Korvenoja)Chapter 16.4: UNIPOL(TM) Polypropylene Process Technology (Barry R. Engle)Chapter 16.5: Chisso Gas-Phase Polypropylene Process (Takeshi Shiraishi)Part 17: PolystyreneChapter 17.1: BP/Lummus Technology for the Production of Expandable Polystyrene (Robert Stepanian)Chapter 17.2: BP/Lummus Technology for the Production of General-Purpose and High-Impact Polystyrenes (Robert Stepanian)Chapter 17.3: Polimeri Europa General-Purpose Polystyrene Process Technology (Francesco Pasquali and Riccardo Inglese)Chapter 17.4: Polimeri Europa Expandable Polystyrene Process Technology (Dario Ghidoni and Riccardo Inglese)Chapter 17.5: Polimeri Europa High-Impact Polystyrene Process Technology (Francesco Pasquali and Franco Balestri)Part 18: Vinyl Chloride and Polyvinyl ChlorideChapter 18.1: Vinnolit Vinyl Chloride and Suspension Polyvinyl Chloride Technologies (Ulrich Woike and Peter Kammerhofer)Chapter 18.2: Chisso Polyvinyl Chloride Suspension Process Technology and Vinyl Chloride Monomer Removal Technology (Seiichi Uchide)INDEX