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Master Brewer Program (6 Weeks) Fluids fundamentals and equipment. Fluids test. Heat transfer fundamentals and equipment. Heat transfer test. Insulation, steam, refrigeration. Heat exchanger/steam/refrigeration test. Materials, process control
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Master Brewer Program (6 Weeks) • Fluids fundamentals and equipment. • Fluids test. Heat transfer fundamentals and equipment. • Heat transfer test. Insulation, steam, refrigeration. • Heat exchanger/steam/refrigeration test. Materials, process control • . Materials and process control test. Instrumentation, pasteurization, filtration and process gases. • Instrumentation, pasteurization, filtration and process gas test. Wrap-up.
How this Relates to the IBD Syllabus • 3.1 Packaging Materials • 3.2 Unit Packaging Operations • 3.3 Sterile Filtration and Pasteurization • 3.4 Packaging Line Design • 3.5 Quality • 3.6 Process Gases • 3.7 Fluid Flow • 3.8 Principles of Heat Transfer • 3.9 Steam • 3.10 Refrigeration • 3.11 Materials of Construction • 3.12 Process Control and Instrumentation
So, what do we need to know about fluids 3.7.1 Forms of fluid and fluid energy 3.7.2 Properties of moving fluids 3.7.3 Friction loss 3.7.4 Pumps 3.7.5 System design 3.7.6 Cavitation and NPSH 3.7.7 Valves Qualitative and Quantitative
So, what do we need to know about H.T.? 3.8.1 Forms of heat energy 3.8.2 Heat transfer mechanisms 3.8.3 Conduction 3.8.4 Convection 3.8.5 Multi-Component Barrier 3.8.6 Boiling and Condensation 3.8.7 Radiation 3.8.8 Heat Exchanger Sizing 3.8.9 Plate Heat Exchanger Design 3.8.10 Plate Heat Exchanger Applications 3.8.11 Jacketed Vessels 3.8.12 Shell and Tube Applications 3.8.13 Insulation
Forms of Heat Energy • Specific Heat Capacity • Latent Heat (enthalpy of vaporization) • Exothermic Heat (chemical to sensible) • Examples of these in brewery • Heat transfer mechanisms • Conduction – contact between atoms/mol. • Convection – in fluid, natural or forced • Radiation – electromagnetic waves • Conduction – • Thick walled tubes – Area increases with radius. Log mean radius. • Fouling – Thin layer of low k material.
Convection – What is it? • Natural vs. forced convection • Effect of velocity, turbulence (vel profile) • Film heat transfer coefficient • Some Heat Transfer Equations for multi-component systems (MANY APPLICATIONS):
Boiling and Condensation Nucleate vs. film boiling Copper – well wetted surface Stainless steel – less-well wetted Larger bubbles on stainless (larger surface tension) Smaller bubbles better (conductivity of liquid greater than vapor) Effect of delta T between boiling liquid and heat transfer surface Radiation Factors effecting radiation heat transfer Areas of brewery where rad is significant
Heat exchange – conservation of energy Rate of Ein – Rate of Eout = Rate of E Accumulation H2O Wort
Log Mean Temperature Difference Parallel FlowCounter Flow T1 T1 Temperature Temperature T T T2 T2 Length Length
Plate Heat Exchangers • Construction, Components, and Configuration • Function of Plate Patterns • Typical Heat Transfer Coefficients • Importance of Gaskets, Divider Plates • Parallel and Series Passes to Match Flow and Heat Requirements • Typical Approach Temperatures • Calculation of Area, Number of Plates
Use of Plate Heat Exchangers in: • Wort cooling (both single and 2 stage) • Beer chilling • Pasteurizaton • Importance of fouling/ scaling problems • CIP techniques • Process and instrumentation arrangement • Leakage protection
Two-stage wort cooler Single-stage stage wort cooler Hot Wort 85C Cool Wort 15C Cold Wort 0C Hot Water 80C 2nd Refrig. -5C Cold Water 10C 2nd Refrig. 10C 2nd Refrig. -5C Hot Wort 85C Cold Wort 7-15C Hot Water 80C Cold Water 10C Colder Water 2C
Insulation • Above ambient temp – open pore • Fiberglass • Below ambient temp – closed pore • Plastic foams • Air is good (low conductivity) • Convection is bad (tiny air pockets) • Water is bad (higher k than air)
So, what do we need to know about H.T.? 3.8.1 Forms of heat energy 3.8.2 Heat transfer mechanisms 3.8.3 Conduction 3.8.4 Convection 3.8.5 Multi-Component Barrier 3.8.6 Boiling and Condensation 3.8.7 Radiation 3.8.8 Heat Exchanger Sizing 3.8.9 Plate Heat Exchanger Design 3.8.10 Plate Heat Exchanger Applications 3.8.11 Jacketed Vessels 3.8.12 Shell and Tube Applications 3.8.13 Insulation
Right Now Heat transfer problems. Readings for Next Tuesday CD, Section 3.8 Review BS+T pp. 102-113 Read BS+T pp. 115-143 Read Kunze pp. 232-235, 289-319, 347-352, 816-821