A process where reactants transform into products, involving breaking and forming of chemical bonds.

The process of creating equipment for chemical reactions, focusing on efficiency, safety, and scalability.

Computer programs used to model and analyze chemical processes, helping in reactor design and optimization.

The calculation of reactants and products in chemical reactions, essential for designing efficient reactors.

Factors to ensure safe operation of reactors, including hazard identification and risk management.

A reactor where reactants are added, reacted, and removed in discrete batches.

A reactor that continuously feeds reactants and removes products, ideal for large-scale operations.

The step-by-step sequence of elementary reactions by which overall chemical change occurs.

The speed at which reactants convert to products, influenced by temperature, concentration, and catalysts.

Metrics used to evaluate the efficiency and effectiveness of reactor performance.

A systematic approach to identifying potential hazards in chemical processes and designing controls.

The process of making a system as effective or functional as possible, especially in reactor design.

Adjusting input values in simulations to study their effects on reactor performance.

A list of safety measures and precautions to follow during reactor design and operation.

The process of inspecting, cleansing, and modeling data to discover useful information for decision-making.

Outputs generated from running simulations, used to assess and refine reactor designs.

A formal document outlining the intended design and operational details of a reactor.

A teamwork approach to create reactor designs, incorporating diverse perspectives and expertise.

Practical uses of theoretical concepts in actual industrial scenarios, enhancing learning relevance.

Combining results from various analyses to form a cohesive reactor design proposal.

A process where peers evaluate each other's work, providing feedback to improve quality.

Techniques to graphically display data, aiding in the interpretation of simulation outcomes.

A personal assessment of learning experiences and understanding, promoting deeper comprehension.

In-depth analyses of specific instances in chemical engineering to illustrate practical applications.

Fundamental concepts and practices that guide the design and analysis of engineering systems.