Viking F20669B EN (011910), DSOE301SS manual Condensation, Pan Placement Tips

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Operation

Using the Oven

Condensation

The oven is supplied with a system which provides a natural circulation of air. In most cases, this natural circulation will eliminate any observed condensation. However, there will be instances where condensation is observed. This is NOT a sign that the oven is not working properly.

Condensation can occur depending on the following factors:

• Type of food being cooked

o Steam and condensation is a natural by product of cooking any food with high water content, such as frozen food, chicken, etc.

o Use a covered container, where practical, when cooking to reduce the amount of condensation that forms.

• Length of cooking time

o If the oven is going to be used for prolonged periods of time, then additional ventilation may be required.

o Do not leave food in the oven to cool after it has been cooked and the oven has been switched off.

o To reduce condensation, ensure the oven is well heated before placing food in the oven cavity.

• Blockage of the oven’s air flow

o If the oven air flow is changed, the oven will not perform to specification.

• Proper installation ventilation

o The oven needs good ventilation within the installed cabinets to perform per specification.

• Type of cabinetry the oven is installed in

o Cabinets need to meet specific temperature requirements. o Some cabinetry materials have high water contents that can

outgas during the heating cycle.

Ambient conditions in the kitchen including humidity and temperature

Using the Oven

Pan Placement Tips

When using large (15" x 13") flat pans or trays that co ver most of the rack, rack positions 2 or 3 produce the best results.

When baking on more than one rack, it is recommended to use one of the convection modes and the 2nd and 4th position or the 3rd and 5th position for more even baking. When baking on three racks, use any combination of positions 2, 3, 4, and 5 for more consistent results.

Stagger pans in opposite directions when two racks and several pans are used in conventional bake. If possible, no pan should be directly above another.

Allow 1 to 2 inches of air space around all sides of each pan for even air circulation.

Single Rack Pan

Multiple Rack Pan

Placement

Placement

Operation

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Contents Viking Use & Care Manual Table of Contents CongratulationsRecognize Safety Symbols, Words, Labels Keep These Instructions for Future ReferenceTo Prevent Fire or Smoke Damage Electrical Shock Hazard Burn Hazard Oven Before Using OvenSetting the Clock Oven Functions and Settings Oven Control PanelTo program the Min/Sec Timer Oven FeaturesSetting the Min/Sec Timer Electronic Timing CenterSetting the Automatic Start Time Bake Program Clocks and TimersTimer Alarm To Set The Automatic Time Bake ProgramFunctions and Settings Meat Probe Function Using the OvenPreheat To Set the Automatic Probe FunctionConventional and Convection Cooking Pan Placement Tips CondensationTRU Conv TruConvec BakingBake Two-Element Bake Baking TipsBaking Chart Convection Baking ChartRoasting Solving Baking ProblemsCommon Baking Problems/Remedies Roasting TipsOperation Conventional Roasting Chart Convection Roasting ChartBroiling Instructions BroilingConv BROIL* Convection Broil To Use Broil or Convection BroilBroiling Chart Broiling TipsCleaning and Maintenance Convection Dehydrate/DefrostBroiler Pan and Grid Self-Clean CycleBefore starting the Self-Clean cycle Oven RacksPower Failure To start the Self-Clean cycleTo stop the Self-Clean cycle Replacing Oven LightsTroubleshooting Service InformationWarranty BUILT-IN Electric Ovens Warranty

DSOE301SS, DSOE301, F20669B EN (011910) specifications

The Viking F20669B EN (011910) stands out as a versatile and sophisticated aircraft within the Viking series, renowned for its innovative design and performance. This aircraft is engineered to meet a variety of mission requirements, catering to both commercial and specialized operations, thereby making it a favorite among aviation enthusiasts and operators alike.

One of the main features of the F20669B EN is its robust construction, utilizing high-strength materials that contribute to its durability and reliability. This aircraft has been designed to provide exceptional performance, with a powerful engine that allows for swift takeoff and efficient cruising. The aircraft’s exceptional thrust-to-weight ratio ensures that it can handle both short takeoff and landing scenarios, making it suitable for diverse environments and situations.

The F20669B EN is equipped with advanced avionics systems that enhance situational awareness and operational efficiency. The cockpit features modern instrumentation, including digital displays that provide real-time data on the aircraft’s systems and performance metrics. Pilots are supported by autopilot capabilities, ensuring easier navigation and reducing the workload during long flights. Additionally, the aircraft is compatible with various navigation and communication technologies, facilitating seamless integration into modern air traffic management systems.

Safety is a significant priority in the design of the Viking F20669B EN. It includes multiple redundant systems, offering enhanced protection in critical conditions. Advanced weather radar systems and collision avoidance technologies further augment its safety profile, making it a reliable choice for demanding operations.

The F20669B EN has a spacious interior that can accommodate up to six passengers comfortably. It features flexible seating arrangements, allowing for customizations based on the mission requirements. The cabin is designed to maximize comfort, equipped with soundproofing and climate control to ensure a pleasant experience during flights.

Overall, the Viking F20669B EN (011910), along with its derivatives like DSOE301 and DSOE301SS, combines cutting-edge technologies, robust construction, and user-oriented design, making it a powerful asset for both commercial aviation and specialized operations. Whether utilized for passenger transport, cargo operations, or special missions, this aircraft stands as a testament to engineering excellence in modern aviation.