All Stories

  1. Sustainability assessment of catalyst design on CO2-derived fuel production
  2. Kinetics, catalyst design, and hydrodynamic analysis in Fischer–Tropsch synthesis: Fixed Bed vs Fluidized Bed Reactors
  3. Single feed droplet–catalyst particle collision in a liquid containing gas–solid fluidized bed to convert fructose to value-added chemicals
  4. Perspectives on 40‐year careers—University of Calgary Chemical & Petroleum Engineering graduating class of 1983
  5. Experimental methods in chemical engineering: Monte Carlo
  6. Homogeneous and Heterogeneous Catalysis of Glucose to Lactic Acid and Lactates: A Review
  7. Experimental methods in chemical engineering: Karl Fischer titration
  8. Experimental methods in chemical engineering: X‐ray fluorescence—XRF
  9. Total Capital Investment of plastic recycling plants correlates with energy losses and capacity
  10. Feedback control strategy of Fischer–Tropsch process in a micro-GtL plant
  11. J.Harmsen, R.BosMultiphase Reactors–Reaction Engineering Concepts, Selection, and Industrial Applications. Berlin: De Gruyter, 2023, $89 USD; ISBN 978‐3‐11‐071376‐3.
  12. Upcycling polymethyl methacrylate to methacrylic acid
  13. Liquid atomization into gas-solid fluidized beds - A review spanning the micro- to macro-scale
  14. tert‐butanol and hydrogen peroxide react over Amberlyst‐15 to form tert‐butyl hydroperoxide
  15. Vision 2050: Reaction Engineering Roadmap
  16. Perspectives on judging posters
  17. Chemical and Biological Delignification of Biomass: A Review
  18. Optimization of Supercritical Carbon Dioxide Fluid Extraction of Medicinal Cannabis from Quebec
  19. Experimental methods in chemical engineering: Data processing and data usage in decision‐making
  20. Safety analysis and risk assessment of a Micro-GtL Plant
  21. Zeolite Y hydrolyses methyl methacrylate to methacrylic acid in the gas phase
  22. Meta‐analysis and review of cannabinoids extraction and purification techniques
  23. Cover Image
  24. Experimental methods in chemical engineering: Computational fluid dynamics/finite volume method–CFD / FVM
  25. Experimental methods in chemical engineering: Reactive extrusion
  26. Experimental methods in chemical engineering: Pressure
  27. Experimental methods in chemical engineering: Hazard and operability analysis—HAZOP
  28. Experimental and Computational Synergistic Design of Cu and Fe Catalysts for the Reverse Water–Gas Shift: A Review
  29. Experimental methods in chemical engineering: Optical fibre probes in multiphase systems
  30. A perspective on The Canadian Journal of Chemical Engineering commemorating its 100th volume: 1929‐2021
  31. Ni-Cu/Al2O3 from Layered Double Hydroxides Hydrogenates Furfural to Alcohols
  32. Experimental Methods in Chemical Engineering: Atomic force microscopy— AFM
  33. Experimental nethods in chemical engineering: Scanning electron microscopy and X‐ray ultra‐microscopy–SEM , XuM
  34. Experimental methods in chemical engineering: gas chromatography‐GC
  35. Experimental methods in chemical engineering: pH
  36. Pt-WO3 oxydehydrates fructose to furans in the gas phase
  37. Cover Image
  38. Techno economic analysis of a micro Gas-to-Liquid unit for associated natural gas conversion
  39. Experimental methods in chemical engineering: X ‐ray absorption spectroscopy— XAS , XANES , EXAFS
  40. Gas to Liquids Techno-Economics of Associated Natural Gas, Bio Gas, and Landfill Gas
  41. Fluidized bed hydrodynamic modeling of CO 2 in syngas: Distorted RTD curves due to adsorption on FCC
  42. Experimental methods in chemical engineering: Mössbauer spectroscopy
  43. Experimental methods in chemical engineering: Density functional theory
  44. NSERC Discovery Grants and a tribute to Leo A. Behie
  45. Experimental Methods in Chemical Engineering: High throughput catalyst testing — HTCT
  46. Experimental methods in chemical engineering: High performance liquid chromatography— HPLC
  47. Experimental Methods in Chemical Engineering: Barrier properties
  48. Experimental methods in chemical engineering: Temperature programmed surface reaction spectroscopy— TPSR
  49. Experimental methods in chemical engineering: Zeta potential
  50. Experimental methods in chemical engineering: Raman spectroscopy
  51. Oxidation kinetics of 2–methyl–1,3–propanediol to methacrylic acid in a fluidized bed reactor
  52. Experimental methods in chemical engineering: process simulation
  53. Gas–Solid Oxidation of Unwashed Lignin to Carboxylic Acids
  54. Thermocatalytic Hydrodeoxygenation and Depolymerization of Waste Lignin to Oxygenates and Biofuels in a Continuous Flow Reactor at Atmospheric Pressure
  55. FeCrAl as a Catalyst Support
  56. Experimental methods in chemical engineering: Electron paramagnetic resonance spectroscopy‐EPR / ESR
  57. Experimental Methods in Chemical Engineering: Rheometry
  58. Experimental methods in chemical engineering: X‐ray diffraction spectroscopy—XRD
  59. Experimental methods in chemical engineering: Residence time distribution—RTD
  60. Experimental Methods in Chemical Engineering: Transmission Electron Microscopy—TEM
  61. Experimental Methods in Chemical Engineering: Unresolved CFD‐DEM
  62. Experimental Methods in Chemical Engineering: Thermogravimetric Analysis—TGA
  63. Experimental methods in chemical engineering: Fourier transform infrared spectroscopy—FTIR
  64. Experimental methods in chemical engineering: specific surface area and pore size distribution measurements—BET, BJH, DFT
  65. Experimental methods in chemical engineering: Fluorescence emission spectroscopy
  66. Experimental Methods in Chemical Engineering: Micro‐Reactors
  67. Experimental Methods in Chemical Engineering: Discrete Element Method‐‐‐DEM
  68. Experimental Methods in Chemical Engineering: Mass Spectrometry—MS
  69. Experimental methods in chemical engineering: Contact angles
  70. Predictive Alarm Generation for Chemical Processes with Unknown Disturbance
  71. Understanding the Influence of Rheological Properties of Shear-Thinning Liquids on Segmented Flow in Microchannel using CLSVOF Based CFD Model
  72. Flame‐assisted spray pyrolysis of lithium and manganese precursors to polycrystalline LiMn 2 O 4
  73. Intellectual contributions meriting authorship: Survey results from the top cited authors across all science categories
  74. Experimental methods in chemical engineering: Ultraviolet visible spectroscopy-UV-Vis
  75. Experimental methods in chemical engineering: Differential scanning calorimetry-DSC
  76. Experimental methods in chemical engineering: Temperature programmed reduction-TPR
  77. Experimental methods in chemical engineering: Preface
  78. Levulinic acid upgrade to succinic acid with hydrogen peroxide
  79. Cs, V, Cu Keggin-type catalysts partially oxidize 2-methyl-1,3-propanediol to methacrylic acid
  80. Catalysis for the synthesis of methacrylic acid and methyl methacrylate
  81. Flame-assisted spray pyrolysis to size-controlled LiyAlxMn2−xO4: a supervised machine learning approach
  82. Citation analysis of scientific categories
  83. CaO and isopropanol transesterify and crack triglycerides to isopropyl esters and green diesel
  84. Pt thin film transient mobility over yttria stabilized zirconia
  85. Catalytic glycerol hydrogenolysis to 1,3-propanediol in a gas–solid fluidized bed
  86. Optimization of LiFePO4 wet media milling and regressive population balance modeling
  87. Pyrolusite: An alternative oxygen carrier for chemical looping combustion
  88. Carbonation and deactivation kinetics of a mixed calcium oxide–copper oxide sorbent/oxygen carrier for post-combustion carbon dioxide capture
  89. Take our quiz to test your publishing skills
  90. Spray dried SiO2 WO3/TiO2 and SiO2 vanadium pyrophosphate core-shell catalysts
  91. A micro-refinery to reduce associated natural gas flaring
  92. An exponential expression for gas heat capacity, enthalpy, and entropy
  93. How do you write and present research well? 17-Submit your manuscript to the journal you cite most
  94. How do you write and present research well? 18-Publish and flourish
  95. How do you write and present research well? 20-state the novelty of your work explicitly
  96. How do you write and present research well? 19-emulate articles in high impact factor journals
  97. Gas phase dehydration of glycerol to acrolein: Coke on WO3/TiO2 reduces by-products
  98. Photo Initiated Chemical Vapour Deposition To Increase Polymer Hydrophobicity
  99. How do you write and present research well? 16-Target an audience and promote
  100. How do you write and present research well? 15-Prepare to say less than you prepare
  101. How do you write and present research well? 13-Set axis titles to within 1 pt of article text
  102. How do you write and present research well? 14-Favour images over text in graphical abstracts
  103. How do you write and present research well? 12-Design graphs to fit within the journal column width
  104. Pyrolusite–CO reduction kinetics
  105. Coke promoters improve acrolein selectivity in the gas-phase dehydration of glycerol to acrolein
  106. Pt on Fecralloy catalyses methane partial oxidation to syngas at high pressure
  107. How do you write and present research well? 10-State the uncertainty, but not too precisely
  108. How do you write and present research well? 11-Respect SI writing conventions
  109. How do you write and present research well? 9-show and state what error bars represent
  110. How do you write and present research well? 8 - Assign authorship according to intellectual involvement
  111. How do you write and present research well? 7-Cite to get cited
  112. Gas-to-liquids processes: Preface
  113. Chemical looping syngas from CO2and H2O over manganese oxide minerals
  114. Partial oxidation of methane to syngas over Pt/Rh/MgO catalyst supported on FeCralloy woven fibre
  115. Attrition resistance of calcium oxide–copper oxide–cement sorbents for post-combustion carbon dioxide capture
  116. Micro-syngas technology options for GtL
  117. How do you write and present research well? 6-Tell it in the title
  118. How do you write and present research well? 5 -revise sentences over 30 words long
  119. Ilmenite–CO reduction kinetics
  120. Gas–solid conversion of lignin to carboxylic acids
  121. Conversion of Refined and Waste Oils by Ultrasound-Assisted Heterogeneous Catalysis
  122. Partial oxidation of 2-methyl-1,3-propanediol to methacrylic acid: experimental and neural network modeling
  123. Gas phase oxidation of 2-methyl-1,3-propanediol to methacrylic acid over heteropolyacid catalysts
  124. How do you write and present research well? Q4 - Do not metastasize with metadiscourse
  125. How do you write and present research well? 3-shave your text with Occam's Razor
  126. Response to comment on “How do you write and present research well?”
  127. Comment on “How do you write and present research well?”
  128. Response to ‘Comment on “How do you write and present research well?”’
  129. Write sentences in the active voice: Agents precede vigorous verbs. The passive voice hides agents.
  130. How do you write and present research well? 1 - admit that you did it
  131. One step cracking/transesterification of vegetable oil: Reaction–regeneration cycles in a capillary fluidized bed
  132. Gas-Phase Partial Oxidation of Lignin to Carboxylic Acids over Vanadium Pyrophosphate and Aluminum-Vanadium-Molybdenum
  133. How do you write and present research well?
  134. Transient acrolein selectivity and carbon deposition study of glycerol dehydration over WO3/TiO2 catalyst
  135. Techno-Economic Comparison of a 7-MWthBiomass Chemical Looping Gasification Unit with Conventional Systems
  136. Thermogravimetric heat and mass transfer: Modeling of bitumen pyrolysis
  137. Communicate Science Papers, Presentations, and Posters Effectively
  138. Publishing Industry
  139. Reporting Data
  140. Plagiarism
  141. Paper Essentials
  142. Tables
  143. Graphs
  144. Writing Style
  145. Posters That Captivate
  146. Presentations They Will Remember
  147. Appendix
  148. Solutions
  149. Front Matter
  150. Preface
  151. Conversion of Refined and Waste Oils by Ultrasound-assisted Heterogeneous Catalysis
  152. Transient modeling of biomass steam gasification with Co3O4
  153. Partial oxidation of d-xylose to maleic anhydride and acrylic acid over vanadyl pyrophosphate
  154. Biofuel synthesis in a capillary fluidized bed
  155. Ultrasonic free fatty acids esterification in tobacco and canola oil
  156. TGA and kinetic modelling of Co, Mn and Cu oxides for chemical looping gasification (CLG)
  157. Vanadium-Phosphorus Oxide Catalyst for n-Butane Selective Oxidation: From Catalyst Synthesis to the Industrial Process
  158. Ultrafast Biodiesel Production Using Ultrasound in Batch and Continuous Reactors
  159. Gas-phase propane combustion in the freeboard of a fluidized bed
  160. Selectively combusting CO in the presence of propylene
  161. Significant catalytic recovery of spent industrial DuPont catalysts by surface deposition of an amorphous vanadium-phosphorus oxide phase
  162. Traveling column for comparison of invasive and non-invasive fluidization voidage measurement techniques
  163. Experimental Methods and Instrumentation for Chemical Engineers
  164. Experimental Planning
  165. Fluid Metering
  166. Physicochemical Analysis
  167. Solutions
  168. Introduction
  169. Pressure
  170. Temperature
  171. Gas and Liquid Concentration
  172. Measurement and Analysis
  173. Analysis of Solids and Powders
  174. Kinetics of mixed copper–iron based oxygen carriers for hydrogen production by chemical looping water splitting
  175. Oxidation Kinetics of Carbon Deposited on Cerium-Doped FePO4 during Dehydration of Glycerol to Acrolein
  176. Transient kinetics ofn-butane partial oxidation at elevated pressure
  177. Transient Redox Activity of Vanadyl Pyrophosphate at Ambient and Elevated Pressure
  178. Hydrogen production through chemical looping using NiO/NiAl2O4 as oxygen carrier
  179. Simulation of catalyst loss from an industrial fluidized bed reactor on the basis of labscale attrition tests
  180. Non-premixed fluidized bed combustion of C1–C4 n-alkanes
  181. Steam carbon gasification of a nickel based oxygen carrier
  182. MeOH to DME in bubbling fluidized bed: Experimental and modelling
  183. Maleic anhydride yield during cyclic n-butane/oxygen operation
  184. Oxidative dehydrogenation of propane to propene, 1: Kinetic study on V/MgO
  185. Fluidized Bed Combustion of Natural Gas and other Hydrocarbons
  186. International VPO Workshop: Preface
  187. Butane oxidation process development in a circulating fluidized bed
  188. Effect of feed nozzle configuration on n-butane to maleic anhydride yield: From lab scale to commercial
  189. Parametric study of n-butane oxidation in a circulating fluidized bed reactor
  190. Simultaneous quantitative measurement of gaseous species composition and solids volume fraction in a gas/solid flow
  191. Reactive Vaporization of Crude Glycerol in a Fluidized Bed Reactor
  192. Kinetic Modeling of Methanol-to-Olefin Reaction over ZSM-5 in Fluid Bed
  193. Regeneration studies of redox catalysts
  194. Chemical-looping combustion process: Kinetics and mathematical modeling
  195. Reactor Technologies for Propane Partial Oxidation to Acrylic Acid
  196. Drift flux modelling of entrained gas–solids suspensions
  197. Gas-Phase Combustion in the Freeboard of a Fluidized Bed-Freeboard Characterization
  198. Drift flux modelling of CFB risers
  199. Formaldehyde process intensification through gas heat capacity
  200. Phosphorous modified ZSM-5: Deactivation and product distribution for MTO
  201. Pressure Calcination of VPO Catalyst
  202. Fluid bed gas RTD: Effect of fines and internals
  203. Heat transfer studies in an inorganic membrane reactor at pilot plant scale
  204. VPO transient lattice oxygen contribution
  205. VPO Transient Oxidation Kinetics
  206. Membrane pilot reactor applied to selective oxidation reactions
  207. Transient n-butane partial oxidation kinetics over VPO
  208. Butane Oxidation to Maleic Anhydride:  Kinetic Modeling and Byproducts
  209. Fines effects on collapsing fluidized beds
  210. Butane partial oxidation in an externally fluidized bed-membrane reactor
  211. Radial Hydrodynamics in Risers
  212. Gas phase hydrodynamics in circulating fluidized bed risers
  213. Hydrodynamics of circulating fluidized bed risers: A review
  214. A New Commercial Scale Process for n-Butane Oxidation to Maleic Anhydride Using a Circulating Fluidized Bed Reactor
  215. Modelling of propylene oxidation in a circulating fluidized-bed reactor
  216. Gas phase hydrodynamics in the riser of a circulating fluidized bed
  217. Modeling the catalytic oxidation of n-butane to maleic anhydride in a circulating fluidized bed reactor
  218. Scaling considerations for circulating fluidized bed risers
  219. Reply to Mitschka
  220. Reply to Andersson and Kristoffersen
  221. Combined thermal-momentum start-up in long pipes
  222. Unified entry length for newtonian and power-law fluids in laminar pipe flow
  223. “Laminar start-up flow in short pipe lengths”
  224. Laminar start-up flow in short pipe lengths
  225. Calculation Of Gas Solubility In Wabasca Bitumen