Method for Baking a Casserole Using Steam
A method of operating a household oven to bake a casserole with the introduction of steam and controlling the steam to maintain a predetermined level of humidity to control the level of browning of the casserole.
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Casseroles, which typically consist of a combination of vegetables, meat, pasta and/or rice, are cooked and served in a single large, deep dish. Casseroles are often topped with cheese as the primary surface ingredient. Due to the depth of a casserole, it can be difficult to cook the center of the casserole thoroughly, without excessively browning or burning the surface ingredients. Thus, casseroles are typically cooked for longer times and at lower temperatures as compared to the individual ingredients cooked alone.
Casseroles are currently prepared in an oven to achieve some browning of the casserole. During the browning process, also known as the Maillard reaction, reducing sugars and amino acids react at temperatures usually in the range of about 300-500° F. and break down relatively large, dull tasting molecules into relatively small, volatile molecules having a pleasing taste and odor. Thus, the browning process gives the casserole a desired flavor in addition to changing the color of the surface of the casserole. Browning occurs only at the surface because the moisture in the casserole prevents the interior from reaching temperatures required for the Maillard reactions to take place. The browning Maillard reaction, however, cannot occur at the surface of the casserole in an overly humid cooking cavity. As a result, casseroles are typically cooked without the addition of moisture. However, the longer cook times required for casseroles expose the surface ingredients of the casserole to radiant heat that can dry out, over-brown and even burn the surface ingredients. To prevent this, casseroles are covered with foil for part of the baking time. This is inconvenient and users often forget to remove the foil and the surface ingredients are not browned as desired.
The addition of water onto the surface ingredients can slow the surface browning. However, current methods of applying water to the surface ingredients by direct spray or steam are not convenient for the user nor do they produce predictable results. If too much water is used, the surface ingredients may appears uncooked and be soggy. If too little is used, the surface ingredients may burn.
SUMMARY OF THE INVENTIONThe invention relates to a method of operating a household oven to bake a casserole with the introduction of steam and controlling the steam to maintain a predetermined level of humidity to control the level of browning of the casserole.
In the drawings:
Referring now to the figures,
The oven 10 further comprises a control panel 28 accessible to the user for inputting desired cooking parameters, such as temperature and time, of manual cooking programs or for selecting automated cooking programs. The control panel 28 communicates with a controller 30 located in the cabinet 12, as shown in
With continued reference to
In addition to the heating system, the oven 10 comprises a steam system 44 preferably mounted within the cabinet 12 and configured to introduce steam into the cavity 14. The steam system 44 in the illustrated embodiment comprises a boiler 46 that heats water stored in the steam system 44. However, the steam system 44 can be any suitable system that is capable of introducing steam directly into the cavity 14 or introducing water that is turned into steam in the cavity 14 and is not limited to the system shown schematically in
As stated above, the exemplary oven 10 can be used to implement a method 50 of baking a casserole with steam according to one embodiment of the invention. The method 50 comprises several stages during which the heating system 35 operates to control a temperature of the cavity 14 and the steam system 44 operates to control a relative humidity of the cavity 14. The temperature and the relative humidity during the stages are selected to produce a casserole having desired outer and inner characteristics, such as texture and color. As used herein, the term “casserole” refers to any type of casserole that benefits from steam baking. Examples of casseroles include, but are not limited to, green bean casserole, tamales casserole, chicken casserole, enchiladas casserole, and tuna casserole. A casserole can also be a standard casserole, which has no toppings, or it can be a cheese-covered casserole having a layer of cheese on a top portion thereof. Furthermore, the method for baking a casserole according to the invention is also useful for cooking egg and cheese dishes, such as quiches.
The stages of the method 50 according to one embodiment of the invention are shown in a flow chart in
Before the first stage of the method 50, the baker prepares the casserole and places the casserole and a corresponding casserole support, such as a baking stone or a baking tray, if used, into the cavity 14, as indicated by step 51 in
Stage 2 follows stage 1 and can be generally referred to as a prehumidify stage where the steam system 44 activates to heat the water, such as by the boiler 46, to prehumidify the cavity 14 (step 56) while the heating system 35 continues to preheat the cavity 14. Stage 2 is designed to uniformly heat the casserole and the interior of the oven 10 in order to prevent uneven cooking of the casserole. When the water in the steam system 44 reaches its boiling point, the steam begins to enter the cavity 14 and raises the relative humidity in the cavity 14. According to one embodiment of the invention, the relative humidity of the cavity 14 reaches a desired relative humidity during stage 2 or at least by the end of stage 2. Thus, by the end of stage, 2, the cavity 14 is moist, a condition where the relative humidity of the cavity 14 is greater than the relative humidity of the cavity 14 prior to the introduction of steam and is at a level desired for initial baking of the casserole. The convection fan 42 continues to operate during stage 2. Concurrently, the heating system 35 raises the temperature of the cavity 14 to a second temperature at a second heating rate r2 less than the first heating rate (step 58). According to one embodiment of the invention, the second temperature is just below a minimum desired steam baking temperature, as will be discussed in more detail hereinafter. The second heating rate is relatively low so that the temperature of the cavity 14 slowly approaches the second temperature to avoid exposing the casserole to excessive direct radiation and to ensure that the cavity 14 is uniformly heated. The term “uniformly heated” refers to all spaces and walls 16, 18, 20, 22, 23 of the cavity 14 and items, such as baking racks, baking stones, and baking trays, in the cavity 14 achieving the first temperature. A uniformly heated cavity results in a higher quality casserole item with consistent final characteristics. When the cavity 14 is uniformly heated and the baker opens and closes the door 24, the temperature of the cavity 14 almost immediately returns to the temperature of the cavity 14 prior to the opening of the door 24.
When stage 2 ends, either upon the cavity 14 reaching a desired relative humidity, such as a maximum relative humidity, or the second temperature, or after a predetermined period of time, stage 3 begins. During stage 3, the duty cycles of the upper and lower heating elements 36, 38 remain the same as in stage 2 to increase the temperature of the cavity 14 to a third temperature (step 60) at a third heating rate r3 optionally greater than the second heating rate and less than the first heating rate, the convection fan 42 continues to operate, and the steam system 44 maintains the desired relative humidity (step 62). According to one embodiment of the invention, the third temperature is equal to a set temperature, which can be a temperature entered by a user through a user interface on the control panel 28 or set by the automatic cooking program, and is at least equal to the minimum desired steam baking temperature. The user interface can comprise, for example, a button, a touch pad, a touch screen, or a voice command unit. Stage 3 is used to heat the oven to the proper cooking temperature so that the casserole can be properly cooked during stage 4.
When the temperature of the cavity 14 reaches the third temperature or after a predetermined period of time, stage 4 begins. During stage 4, the heating system 35 maintains the temperature of the cavity 14 at the third temperature (step 64), and the steam system 44 maintains the desired relative humidity (step 66). Further, during stage 4, the convection fan 42 continues operation, as indicated in step 64. The convection fan 42 is active during all of the stages to help distribute the air and steam throughout the cavity 14. The duration of stage 4 can be variable and dependent on a user input cooking cycle time. In this circumstance, the duration of stage 4 is equal to the user input cycle time less the combined duration of stages 1-3. If the user input cycle time is less than the combined duration of stages 1-3, stage 4 can be eliminated, and the duration of stage 3 can be adjusted in accordance with the user input cycle time. Alternatively, the duration of stage 4 can be set by an automatic cooking cycle.
An exemplary implementation of the method 50 with the oven 10 described above, along with exemplary operational parameter values, is presented below, with it being understood that the method 50 can be utilized with any suitable household oven 10 and that the implementation of the method 50 with different ovens can differ according to the oven utilized. The exemplary operational parameter values are shown in a table in
During stage 1, the heating system 35 rapidly heats the cavity 14 to about 212° F., the boiling point of water at sea level. As is well known in the chemistry art, the boiling point of water changes with altitude and solute content, and the first temperature can be adjusted accordingly. The duration of stage 1 is about 4 minutes; thus, the first heating rate is about 35° F. per minute if the cavity 14 reaches the 212° F. at the end of the 4 minutes. However, the cavity 14 can reach the first temperature before the end of the 4 minutes, if desired. The controller 30 instructs the heating system 35 to operate the upper heating element 36 at a 65% duty cycle and the lower heating element 38 at a 100% duty cycle and to activate the convection fan 42. An exemplary duty cycle is the percentage of time the heating element is on (i.e., power is supplied to the heating element) during a certain time interval, such as 1 minute. The duty cycle of the upper heating element 36 is lower than that of the lower heating element 38 to avoid overheating and excessively browning the exposed upper surface of the casserole that is already present in the cavity 14.
After the 4 minutes, stage 2 begins, and the controller 30 instructs the heating system 35 to reduce the duty cycles of the upper and lower heating elements 36, 38 to 35% and 65% duty cycles, respectively, to slowly increase the temperature to about 250° F. The duration of stage 2 is about 6 minutes; thus, the first heating rate is slightly greater than 6° F. per minute if the temperature of cavity 14 reaches about 250° F. at the end of the 6 minutes. As with stage 1, the temperature in the cavity 14 can reach the second temperature prior to the end of the 6 minutes, if desired. Additionally, the steam system 44 communicates with the controller 30 and turns on the boiler 46 for operation at an 80% duty cycle to raise the relative humidity in the cavity 14 to the desired relative humidity, which is less than a maximum humidity. As with the heating elements 36, 38, an exemplary duty cycle for the boiler 46 is the percentage of time the boiler 46 is on (i.e., power is supplied to the boiler 46) during a certain time interval, such as 1 minute.
During stage 3, the duty cycles of the upper and lower heating elements 36, 38 remain the same as in stage 2 while increasing the temperature of the cavity 14 to the third temperature, which, according to one embodiment of the invention, is a set temperature. The set temperature is a temperature at which the casserole is baked following the preheating and usually ranges between about 300° F., the minimum desired steam baking temperature according to one embodiment of the invention, and 450° F. The duration of stage 3 is about 6 minutes, and the cavity 14 can reach the set temperature before the end of the 6 minutes and at least by the end of the 6 minutes. Further, the duty cycle of the boiler 46 remains at 80%.
After the 6 minutes of stage 3, the controller initiates stage 4, which has a variable duration that depends on the user input cooking cycle time, as described above.
As mentioned above, the operational parameter values shown in
When the baker desires to bake a cheese-covered casserole using the method 50, the baker prepares the casserole, opens the door 24, places the casserole along with the casserole support, if used, in the cavity 14, and closes the door 24. Next, the user selects a “CASSEROLE” cooking cycle, or, alternatively, a “CHEESE CASSEROLE” cooking cycle, on the oven 10 through the control panel 28. The baker also enters the set temperature, desired relative humidity, and the cooking cycle time, if needed, through the control panel 28. The oven 10 then implements the method 50, beginning at stage 1 and ending at stage 4 or stage 5. Following stage 5, the baker removes the casserole, which has the desired outer and inner characteristics, such as texture and color, from the cavity 14. Thus, the casserole is baked in a controlled steam environment, and the baker does not have to attend to the casserole during the baking process nor execute any dangerous home remedies to introduce steam into the cavity 14.
Measurements of a dry bulb temperature and a wet bulb temperature were taken throughout the cooking process at three different dry bulb temperatures: 300° F., 337.5° F., and 375° F. The dry bulb temperature is the temperature of the air in the cooking chamber measured using a thermometer unaffected by moisture in the air. The wet bulb temperature is the temperature of the air in the cooking chamber measured using a thermometer affected by moisture in the air. The wet bulb temperature measured at any time will always be less than the temperature measured by the dry bulb, and the difference between the wet bulb temperature and the dry bulb temperature at a given point during the cooking process is represented by the variable delta. Less relative humidity results in a greater difference between the dry bulb and wet bulb temperatures because the wet bulb is colder. Thus, delta increases as the relative humidity decreases.
In addition to measuring the dry bulb and wet bulb temperatures and calculating delta, each cheese-covered casserole was also visually observed at three points in the cooking process in order to determine a level of browning. The level of browning was noted at the same time that the dry bulb temperature and wet bulb temperatures were recorded. The level of browning is determined by visually comparing a color of the cheese to a level of browning scale, which is known in the art as the BSi Shade Gauge: 1998 scale. Each level of browning is identified by a number, and the numbers increase with the darkness of the color of the cheese. As the different types of cheeses are all initially different colors, the trends of these numbers with respect to delta and color are generally more representative of the cooking result than the absolute value of the numbers themselves.
With continuing reference to
Reduced fat cheddar as shown in
It is also believed that the described method is applicable to casseroles with surface ingredients other than cheese or in combination with cheese. Once the degree of browning is determined by the selected cycle or by the user, the duty cycle for the steam generator can be set by the controller to achieve the desired degree of browning for the given cook time that will ensure the casserole is properly cooked throughout while achieving the desired browning.
While the invention has been specifically described in connection with certain specific embodiments thereof, it is to be understood that this is by way of illustration and not of limitation, and the scope of the appended claims should be construed as broadly as the prior art will permit.
Claims
1. A method of operating a household oven to bake a casserole using steam during a cooking cycle in an automated household oven with a cooking cavity, a heating system for heating the cooking cavity, and a steam system for introducing steam into the cooking cavity, the method comprising:
- a preheating step comprising operating the heating system to heat the cooking cavity to a temperature greater than the water vapor phase change temperature in the cooking cavity;
- a cooking step comprising heating the cooking cavity at a predetermined cooking temperature for a predetermined time; and
- after the preheating step, a humidifying step comprising introducing steam into the cooking cavity to maintain a predetermined relative humidity to control the level of browning of the casserole during the cooking step.
2. The method of claim 1, wherein the humidifying step comprises selecting a duty cycle for the steam system to control the output of the steam system and maintain the predetermined relative humidity.
3. The method of claim 2, wherein the selecting of the duty cycle comprises selecting the duty cycle based on the difference between dry bulb temperature and wet bulb temperature for the predetermined cooking temperature.
4. The method of claim 3, wherein the cooking temperature is selected by the user.
5. The method of claim 4, wherein the cooking time is selected by the user.
6. The method of claim 1, further comprising a second preheating step, after the first preheating step and before the cooking step, wherein the cooking cavity is heated to a uniform temperature greater than the water vapor phase change temperature in the cooking cavity.
7. The method of claim 6, wherein the second preheating step heats the cooking cavity to the cooking temperature.
8. The method of claim 7, wherein the humidifying step begins during the second preheating step.
9. The method of claim 8, further comprising a third preheating, after the second preheating step and before the cooking step, wherein the cooking cavity is heated to the cooking temperature.
10. The method of claim 9, wherein the steam humidifying step reaches the predetermined relative humidity at during the third preheating step.
11. The method of claim 1, wherein the predetermined cooking time and predetermined cooking temperature are selected for cooking all areas of the casserole.
12. The method of claim 11, wherein the predetermined relative humidity is set by a controller to control the level of browning based on the predetermined cooking time and predetermined temperature.
13. The method of claim 12, wherein the user selects the predetermined cooking temperature and predetermined cooking time.
14. The method of claim 13, wherein the level of browning is a predetermined level of browning.
15. A method of operating a household oven to bake a casserole using steam during a cooking cycle in an automated household oven with a cooking cavity, a heating system for heating the cooking cavity, and a steam system for introducing steam into the cooking cavity, the method comprising:
- setting a cooking time and a cooking temperature for a casserole;
- heating the cooking cavity at the cooking temperature for the cooking time;
- determining a level of browning for the casserole;
- setting a relative humidity based on the level of browning; and
- maintaining the relative humidity within the cooking cavity for at least a portion of the cooking time.
16. The method of claim 15, wherein the relative humidity is set by a controller of the household oven.
17. The method of claim 16, wherein the level of browning is determined by one of the user and the controller setting the level of browning.
18. The method of claim 17, wherein at least one of the cooking time and cooking temperature is set by a user of the household oven.
19. The method of claim 15, wherein a controller of the household oven sets a duty cycle for the steam system to maintain the relative humidity.
20. The method of claim 19, wherein the duty cycle is set based on at least one of the cooking time and cooking temperature in addition to the level of browning.
21. A method of operating a household oven to bake a casserole using steam during a cooking cycle in an automated household oven with a cooking cavity, a heating system for heating the cooking cavity, and a steam system for introducing steam into the cooking cavity, the method comprising:
- a cooking step comprising heating the cooking cavity at a predetermined cooking temperature for a predetermined time; and
- a humidifying step comprising introducing steam into the cooking cavity to maintain a predetermined relative humidity to control a level of browning during the cooking step and after the preheating step.
22. The method of claim 21, wherein the predetermined relative humidity is constant during the cooking step.
23. The method of claim 21, wherein the level of browning is a predetermined level of browning selected by the user.
24. The method of claim 23, wherein the predetermined relative humidity is determined based on the predetermined level of browning.
25. The method of claim 24, wherein a duty cycle for the steam system is set to achieve the predetermined relative humidity.
Type: Application
Filed: Nov 26, 2007
Publication Date: May 28, 2009
Applicant: WHIRLPOOL CORPORATION (Benton Harbor, MI)
Inventors: Karen M. Embury (St. Joseph, MI), Joel M. Sells (Coloma, MI), Jason R. Savage (St. Joseph, MI)
Application Number: 11/945,219