GE SS1800, SS1000, SS500 manual Steps

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6.Slide the liquid end assembly off of the pump shaft, taking care not to bend the pump shaft.

7.Remove the retaining ring and remove. The rotary head of the mechanical seal.

8.Remove the seal holder along with the stationary seal seat.

9.Remove the four (4) 3/8-16NC bolts that hold the motor adapter to the motor, and remove the motor adapter.

10.Remove the pump shaft assembly where it is screwed to the threaded motor shaft by first heating the joint area to loosen the thread-locking compound. Secure the motor shaft using a vise grip, and loosen the pump shaft assem- bly. An impeller may be used to grip the shaft, taking proper care not to dam- age the impeller. Or, use a vise grip and fabric rug to grip the splined shaft, taking care not to damage the splines.

11.The motor can now be serviced by a qualified service center, or replaced.

5.5Motor Installation: X Motor Adapter Pumps

STEPS

1.To re-use a repaired motor, clean the threads on the shaft of any thread- sealant residue.

2.Reinstall the pump shaft onto the threaded motor shaft until fully seated. Rotate the pump shaft to make sure it runs true. Run-out should be less than 0.03 inch (0.76 mm) for every 10 inches of pump shaft length.

3.Loosen the pump shaft from the motor shaft, apply thread sealant to the threads, and tighten the shaft again until fully seated. Use standard strength thread sealant on single-phase motors, and a high-strength thread sealant on three-phase motors.

4.Install the motor adapter onto the motor and install and tighten the four bolts into the motor.

5.Position the seal holder into the motor adapter, using Vaseline or grease on the O-ring as a lubricant. Replace the O-ring if damaged.

6.Install a new mechanical seal stationary seat, using Vaseline, grease, or water as a lubricant on the rubber portion.

7.Install the rotary portion of the mechanical seal using a small amount of Vaseline lubricant on the round body of the shaft, and also on the face of the ceramic seat face where the carbon wear ring contacts it.

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Contents TONKAFLO Pumps SS Series Page Introduction Tonkaflo Specifications Cutaway Drawings List of Figures Page Introduction Capacities 2900 rpm 3500 rpm Maximum Tonkaflo Specifications500 Hertz D e l S S 1 8 4 8 X B 5 D e l S S 5 0 5Inlet and Discharge Piping and Connections Inlet Piping Pump InstallationInlet Piping Page Primed Before START-UP Installation Discharge ScreenSteps Motor Wiring Single-Phase MotorsChanging Motor Rotation Rolling the Leads to Balance Current Draw LOW Flow Motor Runs HOT or Stops General Troubleshooting for ALL PumpsSteps Page Page Force the Shaft Into the Impeller Bore Tonkaflo Pump Field Maintenance Motor Installation XB and XC Motor Adapter Pumps Steps Page Liquid END Tonkaflo Service Policy Tonkaflo Pump Return Goods Authorization RGA Procedure 500X Motor Adapter Pump Dimensional DrawingsXB Motor Adapter Pump 1000X Motor Adapter Pump 1800XB Motor Adapter Pump 1800XC Motor Adapter Pump Cutaway Drawings XB and XC Motor Adapter Pump Description Standard Model Parts ListPart Number Series Ordering Parts Warranty Tonkaflo Pump Warranty Page GE Infrastructure Water & Process Technologies
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SS500, SS1800, SS1000 specifications

The GE SS1000, SS1800, and SS500 are advanced gas turbine models developed by General Electric, renowned for their efficiency, reliability, and adaptability in various applications. These turbines are integral to numerous power generation systems across the globe, catering to both industrial and utility sectors.

The GE SS1000 is one of the earlier models in this series, notable for its compact design and robust performance. Engineered for effective operation in both simple cycle and combined cycle power plants, the SS1000 offers a remarkable power output that can be tailored to meet the specific needs of the user. It features advanced materials and a sophisticated cooling system, which enhance its efficiency and longevity. Additionally, the SS1000's design focuses on ease of maintenance, allowing for quick inspections and component replacements, which minimizes downtime and operational costs.

Moving up the scale, the GE SS1800 provides enhanced performance capabilities, making it suitable for larger power demands. One of its significant characteristics is its high thermal efficiency, which is achieved through improved combustion technology and aerodynamic design. The SS1800 also integrates advanced digital controls that optimize its operation, resulting in superior load flexibility. This adaptability is crucial for power plants that need to respond swiftly to fluctuations in demand. Furthermore, the turbine features a modular design, allowing for easier upgrades and maintenance.

The GE SS500 represents a further evolution in gas turbine technology, characterized by its high output and fuel efficiency. This model utilizes advanced ceramic matrix composites, which enable higher operating temperatures without compromising performance. The SS500 is engineered for both gas and dual-fuel configurations, providing operational flexibility that is essential in today's energy landscape. Its advanced diagnostics and predictive maintenance capabilities help operators monitor performance and identify potential issues before they escalate, ensuring continuous and reliable power generation.

In summary, the GE SS1000, SS1800, and SS500 turbines are milestones in gas turbine technology. Each model offers unique features that cater to various power generation needs, with a strong emphasis on efficiency, adaptability, and reliability. As the energy sector continues to evolve, these turbines represent a pivotal innovation that ensures a sustainable and efficient energy future.