UnitConversionChanging ameasurementfrom one unit toanother whilemaintaining thesame quantity.ReactorA piece ofequipmentwhere chemicalreactions takeplace.SteadyStateA condition wherethe amount ofmaterial enteringa system equalsthe amountleaving it.UnitOperationA single step ina chemicalprocess such asmixing, heating,filtration, ordistillation.ControllerA system thatdecides how toadjust aprocess basedon sensor data.MaterialBalanceA calculationused to trackhow muchmaterial entersand leaves aprocess.SystemBoundaryThe imaginaryline separatinga system fromeverythingoutside of it.BlackBoxMethodA way to analyzecomplex systemsby focusing onlyon inputs andoutputs instead ofinternal processes.Meter(m)The SI unitused tomeasurelength ordistance.Kelvin(K)The SI unitused tomeasuretemperature.Conservationof MassThe law statingthat matter cannotbe created ordestroyed in achemical reaction.OutputAny materialor energyleaving asystem.ActuatorA device thatphysically changesa process, such asopening a valve orturning on aheater.StoichiometryThe calculation ofthe amounts ofreactants andproducts involvedin a chemicalreaction.Kilogram(kg)The SI unitused tomeasuremass.AccumulationMaterial thatbuilds up insidea system whenmore entersthan leaves.SIUnitsThe InternationalSystem of Unitsused by engineersand scientists tostandardizemeasurements.YieldThe amount ofdesiredproductproduced froma reaction.ProcessControlSystems thatuse sensors andcomputers tokeep industrialprocesses safeand stable.InputAny materialor energyentering asystem.FeedbackLoopA system wherethe output is usedto influence orcontrol the inputto keepconditions stable.ChemicalEngineeringThe field ofengineering thatapplies chemistry,physics, math, andbiology to designprocesses thatproduce usefulmaterials on a largescale.Scale-UpThe process ofincreasing a reactionor experiment fromsmall laboratory sizeto large industrialproduction.SensorA device thatmeasuresconditions suchas temperature,pressure, orflow.EfficiencyA measure of howmuch usefulproduct isproducedcompared to theamount of inputmaterials.Second(s)The SI unitused tomeasuretime.Recycling (inmanufacturing)Returningunusedmaterials backinto the processso they can beused again.DimensionalAnalysisA mathematicalmethod that usesunits to verifycalculations andconvert betweenmeasurementsystems.Open-LoopSystemA system thatoperates onpresetinstructionswithout adjustingto feedback.UnitConversionChanging ameasurementfrom one unit toanother whilemaintaining thesame quantity.ReactorA piece ofequipmentwhere chemicalreactions takeplace.SteadyStateA condition wherethe amount ofmaterial enteringa system equalsthe amountleaving it.UnitOperationA single step ina chemicalprocess such asmixing, heating,filtration, ordistillation.ControllerA system thatdecides how toadjust aprocess basedon sensor data.MaterialBalanceA calculationused to trackhow muchmaterial entersand leaves aprocess.SystemBoundaryThe imaginaryline separatinga system fromeverythingoutside of it.BlackBoxMethodA way to analyzecomplex systemsby focusing onlyon inputs andoutputs instead ofinternal processes.Meter(m)The SI unitused tomeasurelength ordistance.Kelvin(K)The SI unitused tomeasuretemperature.Conservationof MassThe law statingthat matter cannotbe created ordestroyed in achemical reaction.OutputAny materialor energyleaving asystem.ActuatorA device thatphysically changesa process, such asopening a valve orturning on aheater.StoichiometryThe calculation ofthe amounts ofreactants andproducts involvedin a chemicalreaction.Kilogram(kg)The SI unitused tomeasuremass.AccumulationMaterial thatbuilds up insidea system whenmore entersthan leaves.SIUnitsThe InternationalSystem of Unitsused by engineersand scientists tostandardizemeasurements.YieldThe amount ofdesiredproductproduced froma reaction.ProcessControlSystems thatuse sensors andcomputers tokeep industrialprocesses safeand stable.InputAny materialor energyentering asystem.FeedbackLoopA system wherethe output is usedto influence orcontrol the inputto keepconditions stable.ChemicalEngineeringThe field ofengineering thatapplies chemistry,physics, math, andbiology to designprocesses thatproduce usefulmaterials on a largescale.Scale-UpThe process ofincreasing a reactionor experiment fromsmall laboratory sizeto large industrialproduction.SensorA device thatmeasuresconditions suchas temperature,pressure, orflow.EfficiencyA measure of howmuch usefulproduct isproducedcompared to theamount of inputmaterials.Second(s)The SI unitused tomeasuretime.Recycling (inmanufacturing)Returningunusedmaterials backinto the processso they can beused again.DimensionalAnalysisA mathematicalmethod that usesunits to verifycalculations andconvert betweenmeasurementsystems.Open-LoopSystemA system thatoperates onpresetinstructionswithout adjustingto feedback.

Chemical Engineering Part 1 - Call List

(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.


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  1. Changing a measurement from one unit to another while maintaining the same quantity.
    Unit Conversion
  2. A piece of equipment where chemical reactions take place.
    Reactor
  3. A condition where the amount of material entering a system equals the amount leaving it.
    Steady State
  4. A single step in a chemical process such as mixing, heating, filtration, or distillation.
    Unit Operation
  5. A system that decides how to adjust a process based on sensor data.
    Controller
  6. A calculation used to track how much material enters and leaves a process.
    Material Balance
  7. The imaginary line separating a system from everything outside of it.
    System Boundary
  8. A way to analyze complex systems by focusing only on inputs and outputs instead of internal processes.
    Black Box Method
  9. The SI unit used to measure length or distance.
    Meter (m)
  10. The SI unit used to measure temperature.
    Kelvin (K)
  11. The law stating that matter cannot be created or destroyed in a chemical reaction.
    Conservation of Mass
  12. Any material or energy leaving a system.
    Output
  13. A device that physically changes a process, such as opening a valve or turning on a heater.
    Actuator
  14. The calculation of the amounts of reactants and products involved in a chemical reaction.
    Stoichiometry
  15. The SI unit used to measure mass.
    Kilogram (kg)
  16. Material that builds up inside a system when more enters than leaves.
    Accumulation
  17. The International System of Units used by engineers and scientists to standardize measurements.
    SI Units
  18. The amount of desired product produced from a reaction.
    Yield
  19. Systems that use sensors and computers to keep industrial processes safe and stable.
    Process Control
  20. Any material or energy entering a system.
    Input
  21. A system where the output is used to influence or control the input to keep conditions stable.
    Feedback Loop
  22. The field of engineering that applies chemistry, physics, math, and biology to design processes that produce useful materials on a large scale.
    Chemical Engineering
  23. The process of increasing a reaction or experiment from small laboratory size to large industrial production.
    Scale-Up
  24. A device that measures conditions such as temperature, pressure, or flow.
    Sensor
  25. A measure of how much useful product is produced compared to the amount of input materials.
    Efficiency
  26. The SI unit used to measure time.
    Second (s)
  27. Returning unused materials back into the process so they can be used again.
    Recycling (in manufacturing)
  28. A mathematical method that uses units to verify calculations and convert between measurement systems.
    Dimensional Analysis
  29. A system that operates on preset instructions without adjusting to feedback.
    Open-Loop System