Solutions to cooling tower gearbox pain points

Plant operators and maintenance engineers must effectively manage a variety of cooling tower service issues, whether scheduled or unplanned. Jerome Jennings explains the role of gearboxes in addressing these issues

Industries that require process heat rejection often use field-erected cooling towers to keep pace with their heat load.

Cooling towers have large fans and powerful motors, which can present a host of challenges, including excessive sound, vibration and expense. Gearboxes are employed to address these challenges.

Gearboxes are used as speed reducers to slow the rotational speed from the incoming motor to the outgoing fan of a cooling tower. Companies that operate high-capacity production plants, such as those in the power industry, require cooling towers with large amounts of heat rejection capacity.

Without gearbox technology, cooling tower motors would be massive to directly handle the torque required by the fan. Something so large and heavy would be too expensive and impractical.

Instead, the speed reduction from the gearbox acts as a torque multiplier, keeping the motor a reasonable size and the overall mechanical system more cost-effective.

The speed reduction from gearboxes also optimizes the performance of the cooling tower fan. As fan diameters increase, the fan speed must decrease to maintain acceptable sound and vibration levels, as well as to ensure the structural integrity of the fan itself. Improper gearbox sizing as it relates to the motor and fan can result in excessive vibration, loud operation and structural damage to the tower.

In large cooling tower applications, the fan typically operates at a speed between 100 and 200 rpm. The most common motor speed is 1800 rpm, requiring the average gearbox to reduce motor speed by approximately nine to 18 times to achieve the desired fan speed. The exact combination of this gearbox ratio, fan blade design and fan pitch contributes to the specific performance and energy efficiency of the cooling tower in a given application.

Without gearbox technology, cooling tower
Without gearbox technology, cooling tower motors would be massive to handle the torque required by the fan

Solutions to gearbox problems

Cooling tower operators and maintenance engineers cite several common pain points associated with gearbox operation and service:

ࢀ¢ High operating temperatures, which can contribute to shorter operating cycles, premature gearbox failure and unplanned downtime;

ࢀ¢ Excessive sound and vibration levels, which can result in municipal noise violations, employee safety issues, equipment fatigue and premature failure;

ࢀ¢ Extreme temperature and humidity conditions within the cooling tower, which can quickly degrade mechanical systems, affecting sound level and life of gear sets;

ࢀ¢ Premature bearing failure and excessive wearing of the pinion shaft;

ࢀ¢ Few gearbox options and choices to support either scheduled or unscheduled maintenance and replacement.

Continuous product research and development activities have led to several recent design innovations and product enhancements.

SPX Cooling Technologies’ engineers identified the following solutions to address the five gearbox operational issues most often cited by plant managers and maintenance engineers:

ࢀ¢ To address high operating temperatures, select a gear drive with integral ‘cooling fins’ designed into the housing. In lieu of a smooth casting, the cooling fins increase surface area, allowing better heat rejection as air is pulled over the gearbox by the cooling tower fan;

ࢀ¢ To dampen excessive sound and vibration levels associated with gearboxes, select for robust metal castings. Choose a gearbox engineered to minimize the case deflection associated with the immense torque and thrust loads specific to cooling tower duty;

ࢀ¢ To counteract the extreme temperature and humidity conditions that cooling tower gear drives are subjected to, steel shims at case connection points offer advantages. Plastic shims exposed to temperature and humidity conditions within the tower can creep over time, causing changes in tolerance that affect the sound and life of the gear sets. Steel shims maintain proper gear settings and control gear sound under extreme operating conditions;

ࢀ¢ To guard against premature bearing failure and excessive wearing of the pinion shaft, use heavy-duty double row interstage bearings. Bearing life of 100,000 hours is routinely achievable. A premium-grade isolator-type bearing oil seal with fixed stator sealing surface to prevent shaft wear is also recommended in lieu of a lip type seal that wears against the pinion shaft. The use of heavy-duty double row bearings and oil seals can protect gearboxes from premature wear and extend service life;

ࢀ¢ To expand gearbox repair or replacement options and choices for either scheduled or unscheduled maintenance, choose a reliable supplier with specific knowledge of gear drives and an extensive inventory of cooling tower componentry.

Plant operators and maintenance engineers must effectively manage a variety of cooling tower service issues, whether scheduled or unplanned.

Finding common-sense, long-term solutions to the most common pain-points not only simplifies routine maintenance and repair operations, but goes a long way to alleviate service anxiety.

Reliable gearboxes and dependable suppliers provide a sense of security that maintenance and service issues can be managed methodically instead of in crisis mode.

Jerome Jennings is a global product manager for field-erected components at SPX Cooling Technologies, based in Overland Park, Kansas. SPX manufactures the Marley Geareducer line for cooling towers. The new M Series Geareducer, which debuted earlier this year, simplifies replacement of gearboxes in field-erected towers that do not currently employ a Marley Geareducer. The M Series is a direct ‘drop-in’ replacement for Amarillo-brand gearboxes, with a matching footprint that greatly simplifies gearbox change-out procedures.

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