Grindmaster 5512E instruction manual Computing Overrun

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Overrun

Overrun is the increase in product volume, expressed as a percentage, resulting from the entrapment of air in liquid mix as it is frozen.

The rotating dasher blends air into the mix as it is frozen resulting in increased frozen product volume. For example, if one gallon (1) (4.4 liters) of liquid mix is poured into a freezer and one and a half gallons (1/2) (6.6 liters) of frozen product is drawn out, the result is a fifty percent volumetric increase, or a fifty (50%) percent “overrun”.

Why is overrun important? The introduction of air into the finished frozen product is essential from two stand

points...taste and profitability. Frozen product with a low percentage of overrun costs more to serve, appears wet and is heavy. The introduction of air makes the finished frozen product taste richer. Too much air causes the finished product to be too light and fluffy, making it less satisfying and adversely affecting sales.

The optimum percentage of overrun varies from one type of mix to another, but 50% overrun seems to be a good average. The ingredients in some mixes take on and hold air easier.

Overrun also effects profitability. For example, an increase from 25% to 50% overrun represents a mix savings of 17%.

Uniform overrun insures consistent portion costs. If overrun is allowed to drop, it will cost more to serve a portion of finished product.

Computing Overrun

1.Weigh an empty cup.

2.Weigh this cup filled with liquid mix, subtract the weight of the cup.

NOTE: Repeat this step only when changing mix sources, as mix weight will vary slightly from one supplier to another.

3.Draw a heaping cup of frozen product that contains no air pockets. NOTE: Use a spatula or other device to help fill the cup completely. Avoid tamping the cup as this artificially reduces overrun.

4.Use a straight edge to scrape off excess product flush with the rim of the cup and weigh the cup.

5.Subtract the cup weight and use the overrun formula to determine overrun.

Weight of Liquid Mix (Minus) Weight of Frozen Product

x 100 = OVERRUN

Weight of Frozen Product

For Example:

If a full cup of liquid mix weighs 23 ounces and a full cup of frozen product weighs 15-1/2 ounces, then:

23 - 15-1/2

x 100 = 48.4% Overrun

15-1/2

NOTE: Several companies manufacture scales that automatically read out the overrun for one pint samples. A scale of this type is a valuable tool and should be part of any well run operation. A trick is to place the empty cup on the scale and zero it out first, this will then automatically eliminate the weight of the cup from the calculation.

Overrun has a major impact on the size of the finished frozen portion. As the percentage of overrun (air in the frozen product) increases, the size of the finished portion also increases, yet the portion weight remains the same. For example, an increase from 25% to 50% overrun will yield a 20% larger portion. Customers equate size with perceived value so proper overrun will result in increased customer satisfaction. Experiment with carburetor settings to achieve optimum overrun and product quality with each mix. Some products such as Cappuccino taste better with low overrun. Experiment with different carburetor settings to find the ideal combination for each product.

Crathco® 5512 Manual

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Contents Crathco Beverage Freezers Page Removal from Carton and Pallet Operators Safety PrecautionsInstallation Shipment & TransitInstallation of Concealed Air Filter Accessory Installing Your UnitReduce freezer performance Figure F Installation of Spinner/Mixer Accessory Kit optionalMix Considerations General Operation & AdjustmentsHow to Operate Carburetor AssemblyComputing Overrun OverrunProduct Tips Standby SwitchMix Low Function Product Tips Consistency Control OverviewConsistency Control -Overview Product Consistency AdjustmentFreezing Cylinder Temperature Adjustment Hopper Temperature AdjustmentDrain and Rinse Care & CleaningDaily Cleaning Procedure Cleaning Carburetor, Dispensing Valve and Plunger AssemblySanitizing Carburetor and Valve Components Care & CleaningSanitizing and Refilling Sanitizing & Refilling Cleaning Following Complete Disassembly of UnitFigure BB ReassemblySanitizing and Refilling MaintenanceSuggested Weekly Maintenance Suggested Monthly Maintenance How to Clean Exposed FilterDisconnect electrical power How to Clean Concealed FilterHow to Clean Condenser Annual MaintenanceFigure CC Belt AdjustmentFreezer Specifications Crathco 5512 Manual Troubleshooting Guide Clicking sound Excessive dispensingValve leakage Scraping sound duringCrathco 5512 Manual Part Number Description Exploded View Model 5512 Stock AssemblyExploded View Model 5512-E Stock Assembly Flat Washer Exploded View Model 5512 Base AssemblyExploded View Model 5512-E Base Assembly Exploded View Model 5512 Base Assembly Refrigeration Exploded View Model 5512 Base-E Assembly Refrigeration Probe W0572362 Exploded View Probe AssemblyAssembly Exploded View Model 5512 Electrical Components Exploded View Model 5512-E Electrical Components Model 5512 Electrical Components Front Electrical Box Model 5512-E Electrical Components Front Electrical Box Model 5512-E Contactor Box Model 5512 Contactor BoxModels 5512 & 5512-E Relay Box Models 5512 & 5512-E Electrical BoxCrathco 5512 Manual Model 5512 Ladder Diagram Model 5512-E Ladder Diagram Model 5512 Wiring Diagram Model 5512-E Wiring Diagram Models 5512 & 5512-E Refrigeration Schematic