| PDF | Overview of advanced gas separation membrane technology for gasification systems |
| | | Gary J. Stiegel |
| PDF | Particle-film structured dense dual-phase membrane |
| | | Weishen Yang |
| PDF | ITM Oxygen membrane performance and properties |
| | | Matthew J. Watson |
| PDF | Effects of zirconia addition on structure, oxygen permeation and stability of SrCo0.4Fe0.6O3-8 oxides |
| | | Li Yang |
| PDF | Oxygen transport kinetics in mixed ionic and electronic conducting membrane materials |
| | | Allan J. Jacobson |
| PDF | Joining LaMO3 perovskite ceramics to Nickel-based super alloys using liquid Brazing/TLPB techniques |
| | | Raymundo Arroyave |
| PDF | Isotope transients on operating LSCO oxygen separation membranes |
| | | Charles A. Mims |
| PDF | Atomic scale characterization of oxygen vacancy ordering in oxygen conducting membranes |
| | | Robert F Klie |
| PDF | Hydrogen transport catalytic membrane reactors |
| | | Anthony F. Sammells |
| PDF | Hydrogen separation through dense mixed protonic-electronic conducting membranes |
| | | Eric D. Wachsman |
| PDF | Novel composite membranes for hydrogen separation from coal gasification streams |
| | | Michael Schwartz |
| PDF | A novel process for hydrogen separation using MIECs: Theoretical analysis |
| | | Srikanth Gopalan |
| PDF | Dense cermet membranes for hydrogen separation |
| | | U. (Balu) Balachandran |
| PDF | Mixed conducting membranes for pressure-driven hydrogen separation from syngas |
| | | S Elangovan |
| PDF | Sorption in proton exchange membranes: An explanation of Schroeder’s paradox |
| | | Pyoungho Choi |
| PDF | Chemical stability of barium cerate–based high-temperature proton conductors |
| | | Robert D. Carneim |
| PDF | Composite palladium and palladium-alloy membranes for high temperature hydrogen separations |
| | | Yi Hua Ma |
| PDF | Alloy composition effect on the n-value for H2-selective Pd membranes |
| | | Fernando Roa |
| PDF | Effects of in-situ formation of an intermetallic diffusion barrier layer on the properties of composite palladium membranes |
| | | B. Ceylan Akis |
| PDF | Novel method for fabrication of supported palladium membranes for membrane reactor |
| | | Shigeyuki Uemiya |
| PDF | Catalytic Membrane Reactors for Gas, Liquid and Solid Reforming to Syngas |
| | | Anthony F. Sammells |
| PDF | Development of the Ceramic Membrane ITM Syngas/ITM Hydrogen Process |
| | | Michael F. Carolan |
| PDF | Hydrogen recovery from fluid catalytic cracking units using membranes or catalytic membrane reactors |
| | | Christophe Chau |
| PDF | Oxygen transport membranes for ultra-clean fuel production |
| | | Earl T. Robinson |
| PDF | Hydrogen-butane separation through MFI-type zeolite membrane grown by a secondary growth method |
| | | Masahiko Matsukata |
| PDF | Characterization of sulfonated cation-exchange membranes modified with polyaniline |
| | | Sophie Tan |
| PDF | Phase changes of SrCo0.5FeOx oxide ion conductor in reducing and oxidizing atmosphere |
| | | Rajesh Sharma |
| PDF | Transport resistance for oxide diffusion barriers on porous metal supports used in composite Pd and Pd-alloy membranes |
| | | Erik E. Engwall |
| PDF | Ordered mesoporous silica membranes for CO2 separation from flue gas |
| | | Sangil Kim |
| PDF | MFI-alumina composite membrane. Influence of the support porous structure on the separative performance |
| | | E. Landrivon |
| PDF | Thermal mechanochemical stability of oxygen transport perovskite membranes |
| | | Nagabhushana Nagendra |
| PDF | CO2 remediation via O2/CO2 combustion utilizing an O2 permeable membrane |
| | | H.G. McIlvried |
| PDF | Theoretical study on the hydrogen absorption behavior of palladium and its alloys |
| | | Hitoshi Kurokawa |
| PDF | Perspectives on membrane technology for advanced gas separations |
| | | Richard D. Noble |
| PDF | Highly selective MFI-zeolite membranes for hydrocarbon separations |
| | | Christophe Chau |
| PDF | Zeolite membranes for fuel ethanol production |
| | | Hidetoshi Kita |
| PDF | Zeolite film packing: Application to synthesis of ETBE in a catalytic distillation column |
| | | Yonghong Li |
| PDF | Polyimides for battery and fuel cell membranes |
| | | Jennifer A. Irvin |
| PDF | Application of SANS in analysis of fuel cell cathode ion exchange membranes |
| | | Riza Kizilel |
| PDF | Novel PEEK membranes for fuel cell applications |
| | | Gil Maria |
| PDF | Synthesis and Characterization of Pyridine-Based Polybenzimidazoles as Novel Fuel Cell Membrane Materials |
| | | Lixiang Xiao |
| PDF | Polyphosphazene-based polymer electrolyte membrane fuel cells |
| | | Serguei N. Lvov |
| PDF | Applying a membrane reactor to hydrogenate acetophenone with simultaneous product separation |
| | | Detlev Fritsch |
| PDF | Characterization of polymer nanocomposites used in rechargeable systems |
| | | Giselle Sandi |
| PDF | Evaluation of ferrites for the membrane applications |
| | | Xiao-Dong Zhou |
| PDF | Effect of water adsorption on MFI-type zeolite membrane prepared by in situ hydrothermal crystallization |
| | | Masahiko Matsukata |
| PDF | Tubular type pervaporation module with silicalite membranes for dehydration of biomass alcohol |
| | | Hidetoshi Kita |
| PDF | Driving force for pervaporation through zeolite membranes |
| | | Travis C. Bowen |
| PDF | Zeolite membrane for dehydration of biomass alcohol: Contribution to mitigation of global warming |
| | | Shinichi Ichikawa |
| PDF | Sorption of Carbon Dioxide by Coals |
| | | John W. Larsen |
| PDF | An initial set of working hypotheses concerning some chemical and physical events when CO2 is injected into a coalbed |
| | | Curt M. White |
| PDF | Mechanism of carbon dioxide CO2 adsorption on moist coals |
| | | Ekrem Ozdemir |
| PDF | CO2 Sequestration with Oriskany Brine |
| | | Yee Soong |
| PDF | Utilization of static mixer on the injection of liquid CO2 into water for the ocean disposal |
| | | Hideo Tajima |
| PDF | Formation and growth of CO2 hydrate particles in a fluidized bed reactor |
| | | Akihiro Yamasaki |
| PDF | Properties of carbon dioxide hydrates concerning the sequestration of global warming gases |
| | | Fumio Kiyono |
| PDF | Separation of CO2 from power plant flue gas using a novel CO2 “molecular basket” adsorbent |
| | | Xiaochun Xu |
| PDF | Performance of solid amine sorbents |
| | | M. L. Gray |
| PDF | Development of a CO2 affinity ceramic membrane |
| | | Richard J. Ciora |
| PDF | New amines for carbon dioxide separation from gas-mixtures |
| | | Angela Dibenedetto |
| PDF | Sorbent development for carbon dioxide separation and capture |
| | | Daniel J. Fauth |
| PDF | Simulation of rate-based theoretical model for CO2 capture: Mass transfer and hydrodynamic aspects |
| | | Adisorn Aroonwilas |
| PDF | Transforming coal into premium carbon products: An outlook |
| | | John Marthin Andrésen |
| PDF | Mechanical properties of nanocomposite carbon foams derived from solvent extracted carbon ore |
| | | Elliot B. Kennel |
| PDF | Coal and petroleum blends as feedstock in the delayed coking process to obtain high-value carbonaceous materials |
| | | Maria M Escallon |
| PDF | Carbon as catalyst for organic electron-transfer reactions |
| | | Francelys A. Medina |
| PDF | The multiple site model for flue gas–mercury interactions on activated carbons: The basic site |
| | | Edwin S. Olson |
| PDF | Activated carbons produced from unburned carbon in fly ash and their application for mercury capture |
| | | Yinzhi Zhang |
| PDF | Effect of activation conditions on the activity of carbons from Fort Union lignites |
| | | Ramesh K. Sharma |
| PDF | Development of microporous activated carbons from unburned carbon in fly ash |
| | | Yinzhi Zhang |
| PDF | Formation of crystal structures during activated carbon production from Turkish Elbistan lignite |
| | | Sevil Cetinkaya |
| PDF | Effect of oxidation resistant hydrogen donors from aromatic liquids towards reduced autoxidative and pyrolytic depositions in thermally stressed jet fuel |
| | | John Marthin Andrésen |
| PDF | Efficacy of coal-based acid on the bioactivity of tribenuron-methyl |
| | | Caifeng Zhang |
| PDF | Oxidation of bituminous coal in alkaline solution with fatty acid as promoter |
| | | Qiu-min Zhang |
| PDF | Preparation of terephthalic acid by coal acids isomerization |
| | | Qiu-min Zhang |
| PDF | Catalyst development for the reforming of liquid hydrocarbons |
| | | Christina R. Manns |
| PDF | Selective CO oxidation in a hydrogen rich stream over Au/MnOx and Au/FeOx catalysts |
| | | Kim Thoa T. Dao |
| PDF | In-situ IR studies on the oxidative carbonylation of methanol to dimethyl carbonate |
| | | Xinbin Ma |
| PDF | Diesel fuel formulation effects on injection timing and emissions |
| | | James Szybist |
| PDF | Artificial neural network investigation of the structural group contribution method for predicting pure components auto ignition temperature |
| | | Tareq A. Albahri |
| PDF | Investigation of polycyclic aromatic hydrocarbon compounds (PAHs) on flue gas desulfurization (FGD) by-products |
| | | Ping Sun |
| PDF | Kinetics of CO2-gasification of Shenmu maceral chars |
| | | Qinglei Sun |
| PDF | Activation of thermal plasma for coal conversion |
| | | Yajun Tian |
| PDF | A new physical constant and its applications to chemical energy production |
| | | Andrew Anthony Angus |
| PDF | Co-production of syngas and CaO by combined thermo-neutral calcination of limestone with CO2-reforming/partial oxidation of methane or carbon |
| | | Martin Mordehai Halmann |
| PDF | Catalytic pyrolysis and kinetics of corn stalk with thermogravimetry |
| | | Haoquan Hu |
| PDF | Prediction of reid vapor pressure of petroleum fuels |
| | | M. R. Riazi |
| PDF | High catalytic performances of low rank coal chars in ammonia decomposition at high temperatures |
| | | Yasuo Ohtsuka |
| PDF | The influence of mineral matters in coal on the reaction of NO-char in the presence of SO2 |
| | | Hui Chang |
| PDF | Numerical analysis of pulverized coal combustion characteristics using advanced low-NOx burner |
| | | Ryoichi Kurose |
| PDF | Effect of iron and calcium compounds on NO emission during coal combustion |
| | | Rengui Guan |
| PDF | Simultaneous reduction of NOx and N2O emissions from a bubbling fluidized bed coal combustor using alternative bed material |
| | | Tadaaki Shimizu |
| PDF | Continuous removal of NO2 into HNO3 by pitch and PAN based activated carbon fiber |
| | | Takashi Enjoji |
| PDF | Reduction of NOx by activated lignite char |
| | | Himanshu Gupta |
| PDF | Thermal behaviors of dioxines captured on a mesophase pitch based active carbon fiber |
| | | Keiichi Kuroda |
| PDF | Leaching behaviors of trace elements in coal ash and char |
| | | Jie Wang |
| PDF | Transformation of arsenic in Yima coal during fluidized-bed pyrolysis |
| | | Hailiang Lu |
| PDF | Removal of mercury from coal by mild pyrolysis and chelate extraction |
| | | Akira Ohki |
| PDF | Trace elements in coal and release of trace elements during pyrolysis |
| | | Ruixia Guo |
| PDF | The behavior of trace elements from high temperature coal combustion process |
| | | Yasushi Sekine |
| PDF | Emission of alkali and trace elements in co-combustion of coal with sewage sludge |
| | | Yoshihiko Ninomiya |
| PDF | Co-Pyrolysis of coal and woody biomass |
| | | Behdad Moghtaderi |
| PDF | Fundamentals on co-combustion characteristics of low-grade coal with biomass |
| | | Ichiro Naruse |
| PDF | Effect of inorganic matter on reactivity and kinetics of coal pyrolysis |
| | | Quanren Liu |
| PDF | An Overview of the U.S. Department of Energy’s Gasification Technologies Program |
| | | Gary J. Stiegel |
| PDF | Role of water vapor in oxidative decomposition of calcium sulfide |
| | | Shengji Wu |
| PDF | Dynamic behavior of sulfur evolved in the gas phase from pyrolysis of seven Chinese coals |
| | | Long Xu |
| PDF | Desulfurization of coal with pyrolysis in different atmosphere |
| | | Haoquan Hu |
| PDF | Desulfurization of coal through pyrolysis in a fluidized bed reactor |
| | | Yongqin Qi |
| PDF | Zinc ferrite and related sorbents for hot gas desulfurization process |
| | | Michihiro Ishimori |
| PDF | Preparation of zinc ferrite in the presence of carbon material and its application to hot-gas cleaning |
| | | Toshimitsu Suzuki |
| PDF | Experimental study on SO2 removal in O2/CO2 coal combustion |
| | | Xiaoping Zhang |
| PDF | Reactor designed for continuous removal of SO2 in flue gas over pitch based activated carbon fibers |
| | | Kei Tada |
| PDF | Ash rejection behavior on continuous column flotation process |
| | | Yasushi Sekine |
| PDF | A novel coal cleaning with pretreatment in methanol |
| | | Takayuki Takarada |
| PDF | Production of clean fuels by solvent skimming of coal at around 350°C |
| | | Kouichi Miura |
| PDF | Effect of acid treatment on thermal extraction for "HyperCoal" production |
| | | Chunqi Li |
| PDF | Elution behaviors of metal components from coal during pretreatment and solvent extraction |
| | | Kinya Sakanishi |
| PDF | Clean coal conversion options using Fischer-Tropsch technology |
| | | Andre P Steynberg |
| PDF | Conversion of coal to hydrogen by integrating the exothermic and endothermic, gas production and separation reactions in gasifier |
| | | Shi-Ying Lin |
| PDF | Treatment of wastewaters from dewatering process of brown coal by use of a novel Ni-supported carbon catalyst |
| | | Hiroyuki Nakagawa |
| PDF | Simultaneous hydrodenitrogenation and deep hydrodesulfurization |
| | | Roel Prins |
| PDF | Influences of nitrogen species on the hydrodesulfurization reactivity of a gas oil over sulfide spent catalysts |
| | | Sri Djangkung Sumbogo Murti |
| PDF | Hydrodesulfurization of DBT over a NiMo catalyst: Inhibition by sulfur and aromatic compounds |
| | | Edd A. Blekkan |
| PDF | Hydrodesulfurization of light cycle oil |
| | | Ki-Hyouk Choi |
| PDF | Kinetic study of 4,6-dimethyldibenzothiophene hydrodesulfurization over Ni phosphide and NiMo, CoMo sulfide catalysts |
| | | Jae Hyung Kim |
| PDF | New starting CoMo heteropolyoxomolybdates for the preparation of HDS catalysts |
| | | Catherine Martin |
| PDF | Catalytic deep HDS of model FCC feed over a CoMo/Al2O3 catalyst modified by potassium |
| | | Damien Mey |
| PDF | Versatile clues from ab initio modeling to improved sulfides catalysts |
| | | Pascal Raybaud |
| PDF | An approach to design the catalyst for deep hydrodesulfurization to achieve 10ppm sulfur level |
| | | Naoyuki Kunisada |
| PDF | Quantum chemical molecular dynamics simulation on catalytic reaction dynamics of methanol synthesis process |
| | | Momoji Kubo |
| PDF | Atomic-scale study of hydrodesulfurization model catalysts |
| | | Jeppe Vang Lauritsen |
| PDF | Development of highly active hydrodesulfurization catalysts - effect of the addition of CyDTA and boria |
| | | Hideyuki Itoh |
| PDF | Novel preparation of titania (TiO2) catalyst support by applying the multi-gelation method for ultra-deep HDS of diesel oil |
| | | Shinichi Inoue |
| PDF | Ultrasound assisted synthesis and hydrodesulfurization activity Ru-Al-Pillared clays |
| | | M. Josefina Perez-Zurita |
| PDF | Activation of hydrogen over sulfide catalysts. Relevance to kinetics and mechanisms of hydrotreating reactions |
| | | G. Perot |
| PDF | Hydrogenation of propene on sulfide catalysts - H-D isotopic study |
| | | M. Bremaud |
| PDF | Influence of the support acidity on the sulfided phase properties |
| | | Francoise Mauge |
| PDF | Effect of methyl groups on the HDN activities of indole and quinoline |
| | | Franklin E. Massoth |
| PDF | Effect of methyl groups at 4- and 6-positions on adsorption of dibenzothiophenes over CoMo and NoMo catalysts |
| | | Xiaoliang Ma |
| PDF | Adsorptive removal of sulfur and nitrogen species from a straight run gas oil for its deep hydrodesulfurization |
| | | Yosuke Sano |
| PDF | Nucleophilic substitution rather than elimination in the HDN of alkylamines |
| | | Yonggang Zhao |
| PDF | Transition metal phosphides: New catalysts for hydroprocessing |
| | | S. Ted Oyama |
| PDF | New catalysts for hydrodesulfurization: Carbides, nitrides, and phosphides |
| | | Mark E. Bussell |
| PDF | Probe reactions for C-C bond cleavage and aromatic hydrogenation over Mo-based carbide and sulfide catalysts |
| | | Chunshan Song |
| PDF | Catalysis by Mo-based monometallic and bimetallic carbide and sulfide catalysts for simultaneous hydrodesulfurization, hydrodenitrogenation, and C-C hydrogenolysis |
| | | Chunshan Song |
| PDF | Hydrodesulfurization of Thiophene over Carbided Molybdena-Alumina Catalysts |
| | | Masatoshi Nagai |
| PDF | In situ FT-IR spectroscopic studies of sulfur effect on Mo2C/Al2O3 catalyst |
| | | Weicheng Wu |
| PDF | IR investigations on the surface sites of MoP/SiO2 and their evolution under hydrodesulfurization conditions |
| | | Zili Wu |
| PDF | Hydrodesulfurization behavior of Mo2N catalyst |
| | | Shuwen Gong |
| PDF | Consideration on the density evaluation of the model of heavy hydrocarbons by computer simulation |
| | | Masakatsu Nomura |
| PDF | Characterization of constituents in Arabian vacuum residues by FT-ICR MS coupled with various ionization techniques |
| | | Keiko Miyabayashi |
| PDF | Vapor liquid equilibrium in polycyclic aromatic compound mixtures and in coal tars |
| | | Vahur Oja |
| PDF | Upgrading of Hamaca crude oil using formic acid as hydrogen precursor under steam injection conditions |
| | | Carlos E. Scott |
| PDF | Thermal properties and dissolution behavior of asphaltenes |
| | | Yan Zhang |
| PDF | New methods for characterization of products from Micro-activity Testing (MAT) of residue from Estonian shale oil |
| | | Yevgenia Briker |
| PDF | Upgrading of extra-heavy crude using hydrogen donor under steam injection conditions. Characterization by pyrolysis GC-MS of the asphaltenes and effects of a radical initiator |
| | | Cesar Ovalles |
| PDF | Estimation of the structural parameter distribution of asphaltene using preparative GPC technique |
| | | Shinya Sato |
| PDF | Characterization of refractory sulfur compounds in residua: a help for deep residue desulfurization |
| | | Isabelle Guibard |
| PDF | Characterization of Soluble Mo Complex during Transformation to Mo Sulfide |
| | | Izumi Watanabe |
| PDF | The effect of anti fouling additives on heat-induced deposition |
| | | John F. Schabron |
| PDF | Cracking reactivities of petroleum asphaltenes |
| | | Ryuzo Tanaka |
| PDF | A procedure for asphaltene isolation aiming correlation with carbon residue |
| | | Marco Antonio G. Teixeira |
| PDF | Determination of coking onset of petroleum feedstocks using solubility parameters |
| | | Parviz M. Rahimi |
| PDF | Hydrocraking of asphaltenes with metal catalysts supported on mesoporous silica |
| | | Enkhsaruul Byambajav |
| PDF | Molecular constitution, carbonization reactivity, and mesophase development from FCC decant oils |
| | | Jennifer Clemons |
| PDF | Bioconversion of aromatics in light gas oil (LGO) in a continuous bioreactor system |
| | | Hans Kr. Kotlar |
| PDF | Steam reforming for hydrogen. The process and the mechanism |
| | | Jens R. Rostrup-Nielsen |
| PDF | Highly active steam reforming catalyst for natural gas and just activity evaluation method |
| | | Toru Numaguchi |
| PDF | Syngas production by direct oxidation of methane in a reverse-flow reactor |
| | | Dirk Neumann |
| PDF | A green and sustainable energy system built upon biological hydrogen production |
| | | Bruce E. Logan |
| PDF | Hydrogen production by water dissociation using mixed-conducting membranes |
| | | U. (Balu) Balachandran |
| PDF | Hydrogen generation from methane and water by nonthermal plasma |
| | | Kanji Irie |
| PDF | Deactivation of supported gold water gas shift catalysts |
| | | Chang Hwan Kim |
| PDF | Recent developments on hydrogen storage systems |
| | | Hironobu Fujii |
| PDF | Performance of a metal hydride hydrogen storage system |
| | | Sarang A. Gadre |
| PDF | Hydrogen storage using complex hydrides |
| | | Darlene K Slattery |
| PDF | Performance of metal-doped sodium aluminium hydride for reversible hydrogen storage |
| | | Jun Wang |
| PDF | Thermochemistry of hydrogen storage by magnesium metal in the nanometer and sub-nanometer regime: Are we sure that the thermochemistry is not changed compared to the bulk? |
| | | Jian-jie Liang |
| PDF | Hydrogen separation by zeolite membranes |
| | | Xiaochun Xu |
| PDF | Mechanism of permeation in hydrogen selective silica membranes |
| | | S. Ted Oyama |
| PDF | Advances in fuel processing for PEM fuel cells |
| | | Levi T. Thompson |
| PDF | Hydrogen production from propane through partial oxidation and autothermal reforming in microstructured reactors |
| | | Torbjorn Gjervan |
| PDF | The stability of molybdenum carbide catalysts in methane reforming |
| | | David C. LaMont |
| PDF | Partial methane oxidation on yttria and ceria supported platinum catalysts |
| | | Fabio B. Passos |
| PDF | Methanol steam reforming over nitride based catalysts |
| | | Shyamal K. Bej |
| PDF | Non-noble metal water-gas shift catalysts for automotive fuel cell applications |
| | | Valery D. Sokolovskii |
| PDF | On-site production of hydrogen from hydrocarbon fuels with minimal greenhouse gas emissions |
| | | Nazim Z. Muradov |
| PDF | Ultra rapid reforming of hydrocarbons by thermo-neutral reaction method on a multi-functional catalyst for hydrogen production and fuel cell systems |
| | | Tomoyuki Inui |
| PDF | Prereforming of natural gas |
| | | Rune Loedeng |
| PDF | Reforming of liquid hydrocarbon fuels for micro fuel cells. Steam Pre-reforming of jet fuel over supported metal catalysts |
| | | Jian Zheng |
| PDF | Operating experience of a small hydrogen plant by steam reforming of natural gas |
| | | Mou Jian |
| PDF | Reforming of liquid hydrocarbon fuels for micro fuel cells. Steam reforming of pre-reformate from jet fuel over supported metal catalysts |
| | | Jian Zheng |
| PDF | Methanol autothermal reforming over oxide supported noble metal catalysts |
| | | Easwar S. Ranganathan |
| PDF | Clean fuels from coal: The path to 1972 |
| | | Burtron H. Davis |
| PDF | Progress of coal science in the 20th century |
| | | Karl H. van Heek |
| PDF | Progress in Coal Liquefaction Including a Discussion of Wilsonville Data |
| | | Anthony M. Valente |
| PDF | An analysis of the accomplishments of the DOE direct coal liquefaction program, 1976-2000 |
| | | Richard A. Winschel |
| PDF | Progress toward the coal-finery |
| | | Harold H. Schobert |
| PDF | HTI coal conversion technologies in China |
| | | Peizheng Zhou |
| PDF | Coal-based jet fuel: composition, thermal stability and properties |
| | | Suchada Butnark |
| PDF | Investigation of CO adsorption on the zirconia polymorphs |
| | | Zhongyi Ma |
| PDF | Removal of heteroatom containing species in coal liquid distillates from South Banko coal by catalytic hydrotreatment over NiMo supported alumina catalyst |
| | | Sri Djangkung Sumbogo Murti |
| PDF | Study of the liquids derived from co-coking in a laboratory scale delayed coker |
| | | Maria M Escallon |
| PDF | A coal to hydrogen plant |
| | | Sheldon Kramer |
| PDF | Clean and efficient coal-based electric power generation |
| | | Janos M. Beer |
| PDF | Fischer-Tropsch process to clean fuels and chemicals |
| | | M. E. Dry |
| PDF | Fischer-Tropsch catalysts supported on sol-gel derived silica |
| | | Brian C. Dunn |
| PDF | Synthesis of Mixed Alcohols over ADM catalysts promoted by Ni and Mn |
| | | Debao Li |
| PDF | The role of iron promoter in higher alcohols synthesis: Effect of preparation parameter on the Cu/Mn/Fe/ZrO2 catalyst |
| | | Run Xu |