Life-water  Drilling  Technology

  Latin American Dealer 

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Drill Specifications

  • Weight without stem and tool – 6500 lbs
  • Trailer weight capacity: 15,000 lbs
  • Trailer brakes:  4 wheel electric
  • Mast height: 29 feet usable
  • Sandline cable: 500 feet 3/8” diameter
  • Mainline cable: 500 feet 5/8” diameter
  • Engine: 21 horse power gasoline Honda electric start
    18 amp charger
  • Welder: 150 amp arc welder
  • Hydraulic oil tank: 30 gallon capacity
  • Hydraulic oil cooler with electric fan
  • 3 square jacks rated at 25,000 pounds each
  • Powder coat finish for long lasting durability
  • 4 spool hydraulic control: mast, sandline, mainline,
    walking beam
  • 22 inch stroke
  • Maximum hammer cycle: 58 strokes per minute
  • Adjustable auto feed for mainline
  • 40 gallon water storage with pressure

Comparing a comparably priced rotary drill rig the LDT 360

I have drilled with both small rotary rigs and our LDT 360 percussion rig so the comparison will be easy for me.  Also I would like to add we created the LDT 360 at the suggestion from Tim Cleath, a geologist who has drilled water wells in 25 countries and who helped found Lifewater International. From his vast experience he knew exactly what was lacking with the small rotary rigs. Our goal in designing the LDT 360 was to create a drill rig easy to operate, low cost, easy to service and maintain with parts available throughout the world. We tested our rigs for thousands of hours with visitors from all over Africa who had little or no drilling experience drilling wells. Most if not all learned enough in less than a week to complete a well.

Now to share with you the problems we experienced with a small rotary rig.  The setup required the construction of two mud pits.  In rock this is almost impossible.  In a sandy loam the pit must be constructed with an impermeable lining.  Without a good lining the drilling process will require tens of thousands of liters of water due to loss of water into the formation.  The pits do not do a very good job of separating the large sand and gravel as the viscosity of the mud tends to float the drilling tailing into the re-circulation pond.  The two ponds require lots of effort to maintain levels and the position on the pump intake hose.  When the suction was too close to the bottom it would clog with tailing.  When the intake was too near the top of the pond it would intake air causing the pump to loose prime. We think this is what caused the mud pump shaft seal to burn out.  Without the pump drilling had to stop. Drilling would progress until we hit a rock.  On one occasion we used a tricone bit in our attempt to penetrate rock but the down hole pressure was not sufficient to penetrate rock even using a 4″ bit.  Ultimately the cones stopped rolling and the bit wore flat.  We had to finish the well with our LDT 360.  Another major problem constructing wells with the small rotary rigs is the bit tends to wonder so the hole is not straight.  This causes the well casing to jam in the bore before it reaches the bottom which can cause a number of problems including stopping above the water level. Setting casing with the small rotary rigs is also made difficult because the masts are inadequate.  Other drawbacks we encountered included plugging the drill stem with clay that required removing the entire drill string and cleaning out the plugged drill stem.  Each 10 foot section of drill stem weighs 70 pounds so only very strong workers can manage the drill stems. Drilling with mud can also lead to missing marginal seams of water or even damaging a formation.

The LDT 360 eliminates all the problems described above.  One man can drill a well from start to finish.  Setup takes just minutes. We easily drill through rock.  We can easily determine when we hit water even when it is just a small amount.  The auto cable feed adjusts for the proper penetration rate.  The separate sand-line makes bailing fast without requiring tooling change overs.  We often complete drilling wells by using only one tenth of the water required for rotary drilling.  We have also developed a process for keeping the bore hole from collapsing in unconsolidated formations and eliminates the driving of steel casing. We accomplish this by maintaining a static level of bentonite at least 30 feet above the cave in zone.  The percussion method of drilling drills very straight bores because gravity causes each impact to fall directly in line with the previous hit. Our tall 30 foot mast enables easy casing and pump installation. Our experience using carbide button bits is that they last for thousands of feet of drilling. For my commercial drilling business we typically drill with a 9 inch bit and install a 5″ PVC casing with a 2 inch gravel filter pack.  These wells tend to last forever.  The smaller rotary rigs typically drill 4″ diameter bores leaving no room for a filter pack which can lead to premature pump failure.  Personally I hope to never use a small rotary rig again.