CHAPTER 2: HEAT TRANSFER

Question 1

Three main ways heat is transferred.

Answer 1

Radiation, convection, conduction.

Question 2

A fourth type of heat transfer.

Answer 2

Induction, which takes place on a special stovetop surfaces.

Question 3

What is radiation?

Answer 3

Rapid transfer of heat through space from a warmer object to the surface of a cooler one.

Question 4

What is frictional heat?

Answer 4

The heat generated once molecules begin to vibrate rapidly on the surface of an object.

Question 5

Why is radiation described as indirect heat?

Answer 5

At no time does the radiation body come into direct contact with the object.

Question 6

Appliances that use radiation.

Answer 6

Toasters, broilers, in fared heat lamps and conventional ovens.

Question 7

Do dark or light surfaces radiate more heat? Why?

Answer 7

Dark surfaces do because they absorb more heat energy to begin with.

Question 8

Do dull or shiny surfaces radiate more heat?

Answer 8

Dull

Question 9

Do dull black sheet pans bake food faster than bright shiny ones?

Answer 9

Yes

Question 10

What is emissivity?

Answer 10

The ratio of power emitted by a body to the power emitted if it was a black body.

Question 11

What is happening if something close to an oven wall is baking up darker than everything else?

Answer 11

“Hot spots,” created by radiant energy.

Question 12

Is radiation a means of transferring microwave energy?

Answer 12

Yes

Question 13

What tube generated microwave energy?

Answer 13

Magnetron

Question 14

Does microwave energy penetrate the surface of food more easily than radiant energy?

Answer 14

Yes

Question 15

Why do microwaves heat food unevenly?

Answer 15

Partly because different substances absorb microwave energy differently, but also because some substances require less energy to heat up.

Question 16

Why is heating with a microwave relatively fast compared to radiant energy?

Answer 16

Because the radiant microwaves penetrate further into the food–typically 1 to 2 inches–than radiant heat energy, which heats surfaces only.

Question 17

When does conduction occur?

Answer 17

When heat passes from a hot area of an object to a cooler area; heat is passed molecule by molecule.

Question 18

Is conduction a form of direct heat?

Answer 18

Yes

Question 19

What happens to heat transfer when old aluminum sheet pans are pocked with bits of blackened food?

Answer 19

They will radiate heat unevenly.

Question 20

Does conduction continue when a pan is removed from the heat source?

Answer 20

Yes, until the pan and food reach the she temperature.

Question 21

Does water have low or high heat conductivity?

Answer 21

Low

Question 22

Does air have a higher or low heat conductivity than water?

Answer 22

Lower

Question 23

Materials that conduct heat quickly are referred to as having what?

Answer 23

High thermal or heat conductivity.

Question 24

Why do solids have higher heat conductivity than gases and liquids?

Answer 24

The molecules are much closer together in solids than liquids or gases; this makes it easier to pass from one molecule to the next.

Question 25

Good team reference for conduction and radiation.

Answer 25

Two teams of ten stand next to each other. One (radiation) passes the ball from first to last while the other (conduction) can only hand it off one at a time.

Question 26

Explain the conductive properties of heavy-gauge compared to this-gauge material.

Answer 26

Heavy-gauge material is thicker and conducts heat to food more slowly than thin-gauge.

Question 27

Are heavy-gauge materials preferred over thin-gauge? Why?

Answer 27

Yes, because they transfer heat more evenly.

Question 28

Why does marble feel cooler than wood to the touch, even in a warm bakeshop?

Answer 28

Marble has a greater heat conductivity than wood, so heat transfers faster from the body to marble than t does wood. Because the hand touching the marble cools more quickly, the marble seems cooler to the touch (when, in actuality the marble is now slightly warmer, because heat was transferred to it from the hand).

Question 29

Put copper, silver, stainless steel and aluminum in order concerning heat conductivity.

Answer 29

Silver, copper, aluminum, stainless steel.

Question 30

Put teflon, marble, wood, water and air in order concerning heat conductivity.

Answer 30

Marble, water, teflon, wood, air.

Question 31

Why is marble often used in bakeshops?

Answer 31

Its good heat conductivity helps cool hot confectionary products quickly.

Question 32

Why not use stainless steel instead of marble to cool confectionary products?

Answer 32

Generally, it’s the price but they are also very thin and heat up too quickly.

Question 33

Why is copper good to use for cooking sugar?

Answer 33

It helps reach high temperatures quickly.

Question 34

What metals are typically applied in a thin layer to prevent copper from reacting with food?

Answer 34

Tin or aluminum.

Question 35

How well does aluminum conduct heat compared to copper?

Answer 35

Half as well.

Question 36

Pros and cons of aluminum cookware.

Answer 36

It’s cheap and conducts heat very well but also reacts with foods, especially when acidic, and discolors fruit products while turning milk and egg products gray; this limits the use over stovetop cookware. And since it’s a soft metal, aluminum is easily scratched an pitted

Question 37

Where is aluminum commonly used? Why?

Answer 37

In bakeware, where discoloration is less of an issue.

Question 38

How do you avoid burning baked goods on aluminum pans? What if you’re baking delicate items?

Answer 38

Use heavy-gauge pans and parchment paper. Use silicon silicon baking pads or double sheet tray if food is delicate.

Question 39

How does a double layer of sheets pans help with baking delicate items?

Answer 39

The double layer slows heat conduction to a manageable level.

Question 40

What is dark hard-anodized aluminum?

Answer 40

Aluminum that has undergone an electrochemical treatment that changes the surface of the aluminum so that it is hard and durable.

Question 41

Is anodized aluminum reactive with foods?

Answer 41

No

Question 42

Does anodized aluminum conduct heat as fast as regular aluminum?

Answer 42

No

Question 43

Why is some heat transferred by radiation with anodized aluminum?

Answer 43

Because it’s dark in color.

Question 44

Typical gauge of anodized aluminum? Expensive?

Answer 44

Typically comes in a heavy gauge so it cooks evenly, but it’s more expensive than regular.

Question 45

What is stainless steel?

Answer 45

A type of low carbon steel (iron alloy) that contains a mix of metals including chromium and often nickel.

Question 46

Is stainless steel a good conductor of heat? Advantages (cleaning, pricing, durability)?

Answer 46

No but it is easy to clean, moderately priced and durable.

Question 47

What is convenient about stainless steel’s light-reflective surfaces?

Answer 47

Makes it easy to view food as you cook it.

Question 48

How have manufacturers tried to “improve” stainless steel’s heat conductivity?

Answer 48

Lower-quality cookware is manufactured to a thin gauge.

Question 49

Why does thin gauge cookware have hot spots where food is likely to burn?

Answer 49

It is difficult to roll any metal to a thin gauge evenly. Because of its unevenness, thin gauge cookware has hot spots where food is likely to burn.

Question 50

What does stainless steel cookware with an aluminum core provide for consumers?

Answer 50

Stainless steel provides nonreactive, light colored surface that makes it easy to view food and clean; aluminum provides improved heat conduction.

Question 51

The best aluminum/stainless steel cookware has how much aluminum? Why?

Answer 51

Aluminum extending up the sides of the pan.

Question 52

Best cookware for stovetop cooking of fruit mixtures, vanilla custard sauce and pastry cream?

Answer 52

Aluminum-core stainless steel cookware.

Question 53

Is cast iron reactive? Is it pragmatic for bakeshops?

Answer 53

Yes, it adds a metallic taste and discolors food; this is why it’s rarely used in bakeshops.

Question 54

How do you season a cast iron skillet?

Answer 54

Coat with a thin layer of vegetable oil or shortening, then heat in an oven at about 350ºF (175ºC) for an hour.

Question 55

Is tinware used in traditional French bakeware?

Answer 55

Yes

Question 56

Benefits of tin bakeware.

Answer 56

A good conductor of heat, lightweight and inexpensive.

Question 57

Problems with tin bakeware.

Answer 57

Rusts easily and darkens with acidic foods.

Question 58

What must be done immediately after tin bakeware is washed?

Answer 58

It must be dried thoroughly so it doesn’t rust.

Question 59

Pros and cons of ceramic, glass, porcelain and stoneware.

Answer 59

They all conduct heat poorly but retain heat well once hot. This makes them useful for slow cooking. Ceramic ramekins, for example, are great for custards.

Question 60

Do nonstick surfaces vary in durability?

Answer 60

Yes, some crack and peel, and most scratch after repeated use.

Question 61

Why is it more difficult to brown food on nonstick surfaces?

Answer 61

The surface acts as an insulator between the source of heat and any food placed in the pan. This means cooking with nonstick is also slower as well.

Question 62

Where are nonstick pans acceptable?

Answer 62

Wherever fast heating is not needed.

Question 63

Pros and cons of silicon bakeware, molds and sheets.

Answer 63

Silicone is not a good conductor of heat. For this reason, items bake more slowly and brown more evenly.

Question 64

Silicone baking mats (Silpat pads) are able to withstand what temperatures?

Answer 64

Ovens up to 580ºF/300ºC to freezer.

Question 65

Why do liquids and gases become less dense when heat?

Answer 65

Molecules not only vibrate faster when heated, they move apart. This expansion lowers the density of hot liquids and gases as they rise and move away from the source of heat.

Question 66

What happens to cold air and liquid as the hot air and liquid rises? How do convection currents play a role?

Answer 66

They are denser and, therefore, fall, moving closer to the source of heat. Convection currents set in, distributing heat more quickly and more uniformly throughout the product.

Question 67

Where do convection currents occur? Only the air?

Answer 67

No, in the air, in thin batters baking in the oven, within thin liquids in a saucepan, and within fat in the fryer.

Question 68

What is convection? How is an an invisible helping hand?

Answer 68

Aids heat transfer through liquids and gases, which otherwise conduct heat slowly. Convection involves the constant movement of cold currents of air or liquid toward warmer currents. The warmer, less dense liquid/gas and rise while colder ones sink; like a hand stirring the pot.

Question 69

Rule of thumb when switching from conventional to convection oven.

Answer 69

Reduce oven temp about 25ºF (15ºC) and reduce baking time about 25%.

Question 70

How do you maximize convection currents in any oven?

Answer 70

Make sure baking pans are placed so air movement is unobstructed; do not overload the oven.

Question 71

How do you maintain oven temperatures during baking?

Answer 71

Minimize the number of times you open the oven. Even a few seconds carries a significant amount of the ovens warmth into the bakeshop.

Question 72

When would convection currents need assistance?

Answer 72

They work without it, but the movement of liquid in a pot can be increased if it is stirred. This is especially important with thick liquids, where fewer convection currents set in.

Question 73

Why do convection oven work faster than conventional ovens?

Answer 73

Whether air is being blown by a fan or food is moving in the oven (reel and rotating ovens), the hot air is moving more rapidly toward cooler surfaces.

Question 74

Why do convection, reel and rotating ovens require a lower temperature and shorter baking times than conventional?

Answer 74

Because hot air is being forced into cooler spots faster. This is also why they work more evenly with fewer hot spots.

Question 75

When are convection ovens appropriate and inappropriate? Explain.

Answer 75

They are best for products made from heavy doughs, such as cookies and pâte à choux. Cakes and muffins, for example, bake up asymmetrically if convection currents are too strong or oven temperatures too high. Sponge cakes and soufflés can lose volume and custards and cheesecakes over bake.

Question 76

What is induction?

Answer 76

A new form of heat transfer where cooking takes place on special smooth-top ceramic surfaces, below which are coils that generate a strong magnetic field. The magnetic field causes molecules in the pan to rapidly flip, generating frictional heat within the pan.

Question 77

How fast do induction burners work?

Answer 77

Almost immediately.

Question 78

What characteristic must be present for an induction burner to work?

Answer 78

Flat surface and magnetic material; woks won’t work.

Question 79

What types of metal work on induction burners?

Answer 79

Cast iron and some stainless steel pans.

Question 80

What types of metal don’t work on induction burners?

Answer 80

Copper and aluminum.

Question 81

Benefits of using induction.

Answer 81

Since the pan heats directly, less heat is lost to the stovetop or air, so bakeshop stays cooler. Heat is more easily regulate than with gas or electric, and stovetop surface stays relatively cool, so it’s safer.