OILFIELD PUMP

    The invention of extracting fluid by jetting on demand was developed as a method of producing fluid from wells as simply and econimically as possible. Production will level off on some wells to a very few barrels per day. This is typical all over the world. Any price change in the oil market will have a major impact on this segment of the oil industry, and many operators will abandon and leave these marginal wells.


    This product is used on over 80% of all oil wells worldwide. It was invented about 1890 and has been only slightly modified sense them. The traditional pump is single purpose, heavy, antiquated, and after years of use becomes very inefficient and dangerous. Therefore, we saw a very large market with no direct competition for this product. There are over 433,000 stripper wells in the United States alone, plus 1,000,000 that this pump can be used on. The necessity for a new solution is obvioious.


    Through a series of private capital investiments of about $3000,000.00 cash out of pocket, 18,000 man hours, plus rig time, engineering service and more, this pump has been developed which revolutionizes the way fluid gets to the tank. The pump utilies modern technology to cut operating costs and increase efficiency and productivity to levels before imagined. We are pleased with the results of several years of dedication and work.


  • The company is prepared to enter into licensing and joint venture agreements. 


  • Worldwide Licenses Available In Select Countries.

  • President Email Contact: FranTech International Licensing


"WHAT IS IT?"

  • "It is a lifting system that pushes slugs of liquid to the surface with pulses of gas pressure.

"HOW DOES IT WORK?"

  • The downhole cavity fills from the bottom through a ball type check valve.

  • When the fluid is detected at the desired level, a gas valve on the surface opens. 

  • The liquid is forced by gas presure down an annulus in the chamber and then up the product line to the surface.

  • At a predetermined interval of time the pressured gas line is closed.

  • At a second predetermined time interval all pressure is vented off the system ending the cycle.

"PRINCIPAL ADVANTAGES"

  • Simplicity of design vastly reduced maintenance; eliminates wear points in the well bore because there is only one moving part down hole - a ball in the check valve.

  • Increased Operator profit - lower capital cost and lowere operating cost.

  • Enhanced production - Increased by relieving the hydrostatic well bore pressure.

  • Increased production - less downtime for pulling and repair, replacing worn cups, etc.

  • Utility - pump water from gas wells while producing gas. 

  • Lightweight - can be installed by smaller, less expensive, and more mobile equipment.

"OTHER IMPORTANT FEATURES"

  •  No tubing in which to wear holes and no rods to come apart.
  • Continuous monitoring features and data recording.
  • Cog-legs in the well bore do not interfere.
  • No pumping units to wear out, also less chance of injury to animals and others.
  • No eyesore and less noise.
  • Minimum energy requirement - controller can be solar powered if desired.
  • Closed loop system - propellant does not enter the formation.
  • Depending on the per well production, more than one well can be produced with one compressor - reducing capital cost.
  • Computer telemetry capability allows real-time monitoring of well operations from remote locations. 

  • Any tampering with well or environmental accident alerts the office and/or sounds on-site alarm.

  • The company can create a market where none existed by making unprofitable stripper wells or abandoned wells profitable.

  • The company has the ability to fully test and operate abandoned wells for potential commercial use with a completely portable system.

  • Limitless possibilities worldwide.