Making Maple Syrup

From the trees to the table 

    In late winter, several days before temperatures begin a freeze and thaw cycle, tapping begins.  We drill 5/16" diameter holes with cordless drills about 1-1/2" deep in mature Sugar and Black Maple trees.
    Plastic spouts are inserted into the tap holes with drop lines attached.  Trees between 12 and 18 inches in diameter will have single taps. Trees larger than 18 inches will have no more than two taps. 
    Properly seating the spout into the taphole insures no air leaks or wood damage during the season.  Each tap should produce ten or more gallons of sap in 3 to 6 weeks of production.
    Droplines and branch lines are connected to mainlines supported by high tension wires with 1-3% grade engineered throughout the entire system.  This 12-acre woodlot has more than 27,000 feet of tubing installed.
   Four 3/4" or 1" mainlines carry the sap from 900 taps to a double releaser and collection tank.  A vacuum pump enhances the flow by pulling air and gasses from the lines.  This tubing system without leaks and liquid ring pump can sustain 27" of vacuum at this location (920 feet above sea level).
    This transfer pump moves sap from the collection tank to a truck tank on the road about 320 feet away.  Maple trees and their feeder roots are not damaged nor are ruts made in the woods during the maple season since no wheeled vehicles or horses are necessary to move or collect the sap.
    Moving the sap to the boiling location at Maple Acres may be required at any hour of the day or night.  We have gathered 3000 gallons in a 24-hour period.  Grandson Carter uses a walky-talky to tell the pump operator when the tank is full.
    At Maple Acres, the raw sap is checked for sugar content (usually about 2%), filtered,  transferred to storage tanks and then processed through the reverse osmosis machine.  This removes a majority of pure water which we save for cleaning and also pumps the condensed sap into the overhead supply tank.  The sap is then approximately 8% sugar which decreases the boiling time to make maple syrup.
    The concentrated sap is fed by gravity into the steam-away section of the evaporator.  Steam rising from the 5-foot flue pan preheats and starts the evaporation of the sap increasing the efficiency dramatically.  This 30" x 8 foot unit can evaporate about 500 gallons of raw sap per hour.
    The evaporator is wood fired and uses an air injection blower system to burn very efficiently.  Firing occurs about every 9 minutes.  Bill is wearing a protective face shield, leather apron, gloves and gauntlets.  The fire is intense!
    Using a probe in the final syrup pan, an automatic draw-off controls the exit temperature of the syrup to 1/10 of a degree Fahrenheit.  The control must be adjusted by the operator for changes in barometric pressure.  Generally, the syrup leaves the evaporator at 219 degrees.  Brother-in-law Ned waits to move the filled stainless steel kettle to the kitchen finishing area.
    The syrup is transferred to a finishing boiler in the kitchen to verify the correct density and temperature with a hydrometer.  
    The raw syrup has remaining particles of sugar sand (nitre) causing a cloudy appearance.  These particles are removed in the 7-bank filter press.
    The crystal clear syrup is then pumped from the filter press into the water-jacketed bottler where temperature is maintained at 190-195 degrees F. to assure sterile packaging.  Kim is filling a 12 oz. glass oval container.  The syrup may also be stored in larger drums for bottling later during the year.
    Another step in quality assurance is grandson Nate ready for a taste test.
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