Chemical Engineering Project Topics and Materials | PDF/DOC

List of Best Chemical Engineering Project Topics and Materials for Chemical Engineering Students:

Temperature And Water Requirement For Leaching of Caustic Alkalt From “NGU”. .

Production Of Starch From Cassava. .

Extraction And Formulation Of Perfume From Lemongrass Leaves. .

Effect Of Interface On The Quality Of Petroleum Product In Multi Purpose Pipeline System. .

Process And Quality Factors In Laundry And Toilet Soap Production. .

Effect Of Processing Method On The Physio Chemical Properties Of Sweet Potato And Sorghum. .

Repair Of Stop Clocks. .

Design And Construction Of An Alcohol Detector Using Breath Analyzer. .

Enhancement Of The Yield And Quality Of Palm Kernel Oil. .

Alternative Raw Material Sources For Cement Production. .

Construction Of Flow Nozzle. .

Analysis Of Deep Cycle Battery And Charging. .

Effect Of Temperature On The Viscosity Of Palm Kernel Oil, A-Z Oil, Red Oil And Water. .

Refurbishing Of A Fixed And Fluidized Bed. .

Construction Of Shell And Tube Heat Exchanger. .

Construction of Office Table and Chairs. .

Chemical Assessment Of Ground Water. Case Study Of Ground Water Around Abbatoirs In Saki, Ago Are and Tede, Oyo state.

Margarine Production Using Oil Blends From Palm Kernel, Coconut And Melon. .

Utilization Studies Of Enugu Coal. .

Desulphurisation Kerosene. .

Production Of Wood Adhesive. .

Construction Of A Steel Cupboard. .

Effect Of Environment On Corrosion. .

Design And Construction Of A Factory Worker Alcohol Detector With Automatic Shutdown System And Detecting Camera. .

Adsorption Of Palm Oil With Synthetic Adsorbent (Coal). .

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Project Topic Areas Potential Project Topics
  • Process Optimization: Explore methods to enhance the efficiency of chemical processes, reduce waste, and improve overall productivity. This may involve mathematical modeling, simulation, and advanced control strategies.
  • Bioprocess Engineering: Investigate the application of engineering principles to biological systems, focusing on areas such as fermentation, bioremediation, and bioenergy production.
  • Polymer Science and Engineering: Delve into the synthesis, processing, and properties of polymers. Research topics may include polymerization techniques, polymer blends, and the development of advanced polymer materials.
  • Nanotechnology in Chemical Engineering: Examine the utilization of nanomaterials for enhanced catalysis, drug delivery systems, and other applications within the chemical engineering domain.
  • Environmental Impact Assessment: Assess the environmental impact of chemical processes and propose sustainable solutions. This may involve studying waste minimization, recycling, and green chemistry principles.
  • Renewable Energy Systems: Focus on the design and optimization of processes related to renewable energy production, such as biofuel production, solar energy utilization, and wind energy.
  • Catalysis and Reaction Engineering: Investigate catalytic processes for chemical reactions, including catalyst design, reaction kinetics, and optimization of reaction conditions.
  • Chemical Process Safety: Explore methods to ensure the safety of chemical processes, including hazard identification, risk assessment, and the implementation of safety measures.
  • Petroleum Refining and Petrochemicals: Study the processes involved in refining crude oil into valuable products, as well as the production of petrochemicals.
  • Wastewater Treatment: Address the challenges of treating industrial and municipal wastewater, with a focus on efficient and environmentally friendly treatment methods.
  • Food and Beverage Processing: Investigate engineering aspects related to the production of food and beverages, including process optimization, quality control, and packaging.
  • Process Intensification: Explore strategies to intensify chemical processes, aiming for higher efficiency, reduced energy consumption, and smaller environmental footprints.
  • Heat Exchanger Design: Study the design and optimization of heat exchangers for efficient heat transfer in chemical processes.
  • Fluid Flow and Transport Phenomena: Investigate the fundamentals of fluid flow and heat/mass transfer in chemical engineering applications, with a focus on process optimization.
  • Renewable Chemicals and Biomass Conversion: Examine methods for converting biomass into valuable chemicals and explore the potential of renewable feedstocks in chemical processes.
  • Quality Control in Manufacturing: Focus on methods to ensure the consistent quality of chemical products through rigorous quality control measures.
  • Electrochemical Engineering: Explore applications of electrochemistry in chemical processes, such as electrochemical reactors and batteries.
  • Process Economics: Analyze the economic aspects of chemical processes, considering factors such as capital and operating costs, profitability, and market dynamics.
  • Chemical Plant Design: Study the principles and methodologies involved in designing chemical plants, considering safety, efficiency, and environmental impact.
  • Surfactant Science and Technology: Investigate the properties and applications of surfactants, with a focus on their role in emulsification, dispersion, and foaming.
  • Corrosion Control in Chemical Processes: Examine methods to prevent and control corrosion in chemical equipment and pipelines, ensuring the integrity and longevity of materials.
  • Membrane Separation Processes: Explore the use of membranes for separation processes in chemical engineering, such as filtration, reverse osmosis, and gas separation.
  • Air Pollution Control: Address the challenges of controlling air pollutants from industrial processes, including the design and optimization of air pollution control systems.
  • Chemical Engineering Education: Evaluate and propose innovative methods for teaching chemical engineering concepts and skills.
  • Hydrogen Production and Storage: Investigate methods for sustainable hydrogen production and efficient storage for various applications, including fuel cells.
  • Advanced Materials Synthesis: Explore novel methods for the synthesis of advanced materials with unique properties and applications.
  • Sustainable Design in Chemical Engineering: Focus on incorporating sustainability principles in the design and operation of chemical processes to minimize environmental impact.
  • Computational Fluid Dynamics (CFD) in Chemical Engineering: Apply CFD techniques to model and simulate fluid flow and heat transfer in chemical processes for improved understanding and optimization.
  • Process Automation and Control Systems: Explore advancements in automation and control systems for chemical processes to enhance efficiency, safety, and reliability.
  • Chemical Engineering in Space Exploration: Investigate the challenges and opportunities of chemical engineering in space applications, such as resource utilization and life support systems.
  • Artificial Intelligence in Chemical Engineering: Explore the integration of artificial intelligence and machine learning techniques for optimizing chemical processes, predictive modeling, and decision support.
  • Sustainable Packaging Materials: Examine the development of eco-friendly packaging materials and their impact on reducing environmental waste.
  • Renewable Chemical Engineering Education: Develop educational materials and approaches to enhance the understanding of renewable and sustainable practices in chemical engineering.
  • Advanced Control Strategies in Chemical Processes: Investigate and implement advanced control strategies, such as model predictive control, fuzzy logic, and neural networks, for improved process performance and stability.
  1. Design and optimization of a chemical process for a sustainable manufacturing plant.
  2. Development of a novel catalyst for biofuel production.
  3. Analysis of heat exchanger efficiency in a chemical plant.
  4. Investigation of advanced materials for membrane separation in gas processing.
  5. Simulation and optimization of a distillation column for a specific chemical process.
  6. Study on the production of biodiesel from waste cooking oil.
  7. Design and analysis of a chemical reactor for the synthesis of pharmaceuticals.
  8. Environmental impact assessment of a chemical manufacturing process.
  9. Investigation of corrosion-resistant materials for chemical storage tanks.
  10. Optimization of wastewater treatment processes in a chemical plant.
  11. Development of a green process for the extraction of natural products.
  12. Analysis of safety protocols in chemical plants and risk assessment.
  13. Study on the utilization of renewable energy in chemical processes.
  14. Design and optimization of a continuous stirred-tank reactor (CSTR).
  15. Investigation of the kinetics of a specific chemical reaction.
  16. Development of a process for the production of hydrogen fuel.
  17. Analysis of the economic feasibility of a chemical plant expansion.
  18. Study on the use of ionic liquids in chemical processes.
  19. Design and simulation of a solvent extraction process for metal recovery.
  20. Investigation of the impact of nanotechnology in chemical engineering.
  21. Optimization of a bioethanol production process from agricultural residues.
  22. Study on the use of supercritical fluids in chemical processes.
  23. Analysis of heat transfer in packed beds for catalytic reactions.
  24. Development of a process for the conversion of CO2 into valuable products.
  25. Design and analysis of a membrane bioreactor for wastewater treatment.
  26. Investigation of process intensification techniques in chemical engineering.
  27. Study on the application of artificial intelligence in process control.
  28. Optimization of a fluidized bed reactor for polymerization.
  29. Analysis of the impact of microreactors in chemical synthesis.
  30. Design and simulation of a membrane distillation process.
  31. Investigation of sustainable packaging materials for the chemical industry.
  32. Study on the utilization of algae for biofuel production.
  33. Development of a process for the extraction of essential oils from plants.
  34. Analysis of the impact of process conditions on crystallization.
  35. Optimization of a catalytic cracking process in petroleum refining.
  36. Investigation of process safety management in chemical plants.
  37. Design and analysis of a multi-stage distillation system.
  38. Study on the use of enzymes in industrial biocatalysis.
  39. Development of a process for the production of biodegradable polymers.
  40. Analysis of the effects of impurities on chemical process performance.
  41. Optimization of a reactive distillation process.
  42. Investigation of membrane fouling in water purification processes.
  43. Study on the use of 3D printing in chemical engineering applications.
  44. Design and simulation of a membrane gas separation system.
  45. Development of a process for the recovery of rare earth elements from ores.
  46. Analysis of the impact of process parameters on reactor selectivity.
  47. Optimization of a hybrid solar-biomass power generation system.
  48. Investigation of electrochemical processes for water desalination.
  49. Study on the use of microorganisms for bioremediation of contaminated soil.
  50. Design and analysis of a bio-inspired heat exchanger.
  51. Development of a process for the production of bio-based plastics.
  52. Analysis of the impact of flow regime on heat transfer in tubes.
  53. Optimization of a hydrogen peroxide production process.
  54. Investigation of the use of ionic liquids in biomass pretreatment.
  55. Study on the application of computational fluid dynamics in chemical engineering.
  56. Design and simulation of a reactive crystallization process.
  57. Analysis of the effects of impurities on the performance of catalytic converters.
  58. Optimization of a fluidized bed gasifier for biomass conversion.
  59. Investigation of the use of microalgae for carbon capture.
  60. Study on the recovery of valuable metals from electronic waste.
  61. Development of a process for the production of sustainable aviation fuels.
  62. Design and analysis of a hybrid solar-thermal power generation system.
  63. Analysis of the impact of operating conditions on membrane performance.
  64. Optimization of a solvent-free process for the synthesis of pharmaceuticals.
  65. Investigation of the use of zeolites in adsorption processes.
  66. Study on the application of artificial intelligence in process optimization.
  67. Design and simulation of a pressure swing adsorption system.
  68. Development of a process for the production of bio-based chemicals.
  69. Analysis of the impact of reactor design on polymerization kinetics.
  70. Optimization of a bioleaching process for metal extraction from ores.
  71. Investigation of the use of microreactors in continuous flow chemistry.
  72. Study on the recovery of valuable compounds from industrial wastewater.
  73. Design and analysis of a membrane contactor for gas-liquid mass transfer.
  74. Analysis of the impact of catalyst deactivation on reaction kinetics.
  75. Optimization of a process for the production of hydrogen peroxide.
  76. Investigation of the use of magnetic nanoparticles in drug delivery.
  77. Study on the application of process intensification in chemical processes.
  78. Development of a process for the production of bio-based surfactants.
  79. Design and simulation of a continuous fluidized bed dryer.
  80. Analysis of the effects of impurities on the performance of catalytic membranes.
  81. Optimization of a process for the production of bio-based fertilizers.
  82. Investigation of the use of microreactors in continuous crystallization.
  83. Study on the recovery of metals from spent lithium-ion batteries.
  84. Development of a process for the production of bio-based solvents.
  85. Design and analysis of a microchannel reactor for chemical synthesis.
  86. Analysis of the impact of process conditions on the performance of membrane distillation.
  87. Optimization of a process for the production of bio-based adhesives.
  88. Investigation of the use of microalgae for wastewater treatment.
  89. Study on the application of machine learning in chemical process control.
  90. Development of a process for the production of bio-based lubricants.
  91. Design and simulation of a reactive absorption process.
  92. Analysis of the effects of impurities on the performance of catalytic reactors.
  93. Optimization of a process for the production of bio-based detergents.
  94. Investigation of the use of microreactors in continuous gas-liquid reactions.
  95. Study on the recovery of valuable compounds from agricultural waste.
  96. Design and analysis of a membrane-based water desalination system.
  97. Analysis of the impact of process conditions on the performance of membrane bioreactors.
  98. Optimization of a process for the production of bio-based polymers.
  99. Investigation of the use of microreactors in continuous solid-liquid reactions.
  100. Study on the application of process intensification in membrane separation.
  101. Development of a process for the production of bio-based adhesives.
  102. Design and simulation of a reactive absorption process.
  103. Analysis of the effects of impurities on the performance of catalytic reactors.
  104. Optimization of a process for the production of bio-based detergents.
  105. Investigation of the use of microreactors in continuous gas-liquid reactions.
  106. Study on the recovery of valuable compounds from agricultural waste.
  107. Design and analysis of a membrane-based water desalination system.
  108. Analysis of the impact of process conditions on the performance of membrane bioreactors.
  109. Optimization of a process for the production of bio-based polymers.
  110. Investigation of the use of microreactors in continuous solid-liquid reactions.
  111. Study on the application of process intensification in membrane separation.
  112. Development of a process for the production of bio-based cosmetics.
  113. Design and simulation of a reactive extraction process.
  114. Analysis of the effects of impurities on the performance of catalytic distillation.
  115. Optimization of a process for the production of bio-based inks.
  116. Investigation of the use of microreactors in continuous liquid-liquid reactions.
  117. Study on the recovery of valuable compounds from municipal solid waste.
  118. Design and analysis of a membrane-based gas separation system.
  119. Analysis of the impact of process conditions on the performance of membrane distillation.
  120. Optimization of a process for the production of bio-based resins.
  121. Investigation of the use of microreactors in continuous slurry reactions.
  122. Study on the application of process intensification in solvent extraction.
  123. Development of a process for the production of bio-based emulsifiers.
  124. Design and simulation of a reactive crystallization process.
  125. Analysis of the effects of impurities on the performance of catalytic converters.
  126. Optimization of a process for the production of bio-based coatings.
  127. Investigation of the use of microreactors in continuous gas-solid reactions.
  128. Study on the recovery of valuable compounds from wastewater sludge.
  129. Design and analysis of a membrane contactor for gas separation.
  130. Analysis of the impact of reactor design on mass transfer in gas-liquid reactions.
  131. Optimization of a process for the production of bio-based resins.
  132. Investigation of the use of microreactors in continuous solid-gas reactions.
  133. Study on the application of process intensification in gas-liquid reactions.
  134. Development of a process for the production of bio-based personal care products.
  135. Design and simulation of a reactive distillation process.
  136. Analysis of the effects of impurities on the performance of catalytic membranes.
  137. Optimization of a process for the production of bio-based lubricants.
  138. Investigation of the use of microreactors in continuous liquid-gas reactions.
  139. Study on the recovery of valuable compounds from electronic waste.
  140. Design and analysis of a membrane-based water purification system.
  141. Analysis of the impact of process conditions on the performance of membrane reactors.
  142. Optimization of a process for the production of bio-based surfactants.
  143. Investigation of the use of microreactors in continuous gas-liquid-solid reactions.
  144. Study on the application of process intensification in liquid-liquid reactions.
  145. Development of a process for the production of bio-based antioxidants.
  146. Design and simulation of a reactive adsorption process.
  147. Analysis of the effects of impurities on the performance of catalytic adsorption.
  148. Optimization of a process for the production of bio-based flame retardants.
  149. Investigation of the use of microreactors in continuous liquid-solid reactions.
  150. Study on the recovery of valuable compounds from industrial effluents.
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