Example 2: co-generator control, Example 2: co-generator control -2, Figure 1-2. power relay start control -2 – Basler Electric BE1-32R User Manual

Table 1-1 represents the reverse power requirements to motor a generator when the prime mover is

rotating at synchronous speed with no input power supplied by the prime mover.

Table 1-1. Motoring Reverse Power Requirements

Prime Mover Type

Percent of Rated kW

Hydro Turbine

0.2 to 2.0

Steam Turbine (condensing or non-condensing)

0.5 to 3.0

Diesel Engine (no cylinders firing)

Up to 25

Gas Turbine

Up to 50 (due to compressor load)

The Reverse Power Relay is generally set for levels as low as possible with steam turbines typically being

set not higher than three percent and diesels and gas turbines slightly below ten percent.
Time delays are usually employed to avoid nuisance tripping caused by reverse power transient surges

that may result from synchronizing or other system disturbances. These time delays are typically set from

2 to 10 seconds, but may be set as high as 30 seconds or more.
An operating condition with very low power levels at a low power factor may not be detected by this

product. For very low power levels at power factors of 0.10 or lower, contact Basler Electric for

recommended products.

Example 2: Co-Generator Control
In this example, cogeneration concepts are addressed.

To illustrate, assume that the cogeneration system has

automatic engine controls, an auto-synchronizer,

automatic kW, and kvar controls. The system operates

virtually by itself. The only function lacking is the

start/stop signals to the generators. Two system

configurations may be implemented to generate contact

closures for start/stop signals.
The first configuration (Figure 1-2) shows a directional

power relay connected to the utility to sense kW. The

pickup point of the relay is set at the maximum desired

utility power level. When the utility power level exceeds

the relay pickup point, the output relay contact closes

and the generator is automatically started and paralleled

with the utility. A time delay is generally included in the

start circuit of about 15 or more seconds to ignore

transient overload conditions.
When the generator is paralleled and loaded, the kW

signal of the utility decreases by the amount of load the

generator has accepted. An underpower relay can

measure utility power and generate a stop signal when

the utility power decreases below a selected level. A

time delay is typically provided for the stop signal of one

minute or more (however, time delays are totally user

controlled). The Basler Electric Model BE1-32O/U Power

Relay incorporates both overpower and underpower

sensing in a single relay unit and is ideal for this type of

application.

Figure 1-2. Power Relay Start Control

1-2

BE1-32R, BE1-32O/U General Information

9171100990 Rev T