How to Protect & Establish Reliable Emergency Power and Avoid Costly Repairs

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Large power generators are often used to supply emergency power when the loss of utility power is not acceptable and can mean the difference between life and death. Using basic generator protection with a circuit breaker is simply inadequate and does not provide the full range of protection. To ensure system reliability, prevent equipment damage, and avoid unnecessary repair costs, you should protect your generator against many of the most common problems, a list of which follows with recommended solutions.

Magnetic Core Saturation

Overexcitation occurs when the generator’s magnetic core becomes saturated. This results in stray flux being induced in nonlaminated components, causing equipment overheating. We recommend ANSI-24 protection using appropriate sensing instruments.

Voltage-Restrained Overcurrent Conditions

Uncleared system-side faults and severe faults close to the generator terminals can result in a significant voltage drop and a rapid decrease in output current that could fall below rated load current. Such a condition can often go undetected using conventional means. We recommend ANSI-51V protection using appropriate sensing instruments.

Phase Unbalance & Negative Sequence Conditions

Negative-sequence current can be brought about due to unbalanced loads or unbalanced system faults. Negative-sequence currents rotate in the opposite direction of the power system, inducing a double-frequency surface current on the rotor, which can cause dangerously high equipment temperatures. We recommend ANSI-46 protection using appropriate sensing devices.

Loss of Prime Mover

Reverse power protection can be used to detect the loss of a generator's prime mover. If the energy supplied by the prime mover is cut-off while the generator is online, the generator will start to act as a synchronous motor, causing damage to the prime mover. We recommend ANSI-32R protection with appropriate sensing logic.

Loss of Excitation

Loss of excitation current causes the synchronous generator to act as an induction generator causing rotor speed increase, active power output decrease, and the absorption of VARS from the supply system. High currents are induced in the rotor and stator, and these high currents cause dangerous overheating in a very short time. We recommend ANSI-40 protection with appropriate instrument devices.

Rotor Damage

Inadvertent energization can cause the generator to be energized from the supply side by an incorrectly-closed circuit breaker while the generator is out of service. Under this condition, the generator acts as an induction motor via the inadvertent current supply, inducing damaging high currents in the rotor. We recommend ANSI-50/27 protection using appropriate sensing logic.

Stator Coil Damage

Differential protection provides protection for internal faults within the stator windings of the generator’s alternator. An internal stator fault, unless quickly cleared by the protection system, can cause coil damage that necessitates complete equipment rehabilitation and rewinding. We recommend ANSI-87 protection using current-differential sensing.

Stator Iron Core Damage

Restricted earth fault protection provides sensitive protection against ground faults within the generator windings. A restricted earth fault can cause damage to the stator iron core laminations of the generator’s alternator. We recommend ANSI-87G protection to monitor zero-sequence currents via specialized sensing elements.

Shaft Torque Stress Damage

An out-of-step condition can occur when the generator loses synchronism with a collapsing electrical utility supply system. Such a condition results in damaging high peak currents, winding stresses, and high shaft torques on the generator. We recommend ANSI-78 protection using specialized instrument devices.

Protecting your electrical infrastructure makes financial and business sense. Large power generators are expensive and deserve to be protected as an investment, and in some cases, for the benefit of a critical process and life safety. If you would like a free assessment of your existing power generation facilities, feel free to call us at (240) 582-3900 or email us at info@helioselectric.net.

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