Variable Speed Generator Sets Offer Advantages for Commercial Ships

In recent years, interest in variable speed units as a driver of certain commercial vessels has gained interest. Variable speed technology allows the speed of an engine to be regulated and adjusted according to the electrical load that is connected, which makes it more economical to run.

Compared to traditional, constant speed units, variable units can offer several advantages, such as: up to 15 percent reduction in fuel consumption; up to 20 percent increase in time between overhauls; lower noise emissions; and increased power density with less installation space.

Variable speed units are particularly useful in operating modes with a high percentage of low loads – such as when an Offshore Supply Vessel is in a standby phase.

Fuel efficiency

Common constant speed gensets are designed to optimize fuel consumption at high loads above 75%. The specific fuel consumption depends on load in relation to engine speed. To clarify, the functionality is comparable to a car with manually shifted gears. To optimize fuel consumption, the driver always intends to use a low engine speed (highest possible gear), as a slower running engine saves fuel for the same load.

To achieve these benefits, the frequency typically is adjusted in two steps via converters. First from AC (alternating current) to DC (direct current) and in a second step back to AC via an inverter. The single line diagram in Figure 3 shows one example.

Using the example of a wind-platform supply ship that has recently been in operation with a variable speed unit, we can give a glimpse of the advantages.

On a typical platform supply ship, four units with a capacity of approximately 2,100 kW each are used to power the vessel. An arrangement of the units with their electrical components is shown in Figure 3.

The high performance that this arrangement can offer is necessary due to redundancy requirements and comes in handy in cases of bad weather – but is not needed for a majority of a ship’s operation time. Having this arrangement in place during typical use for diesel engines results in high proportions of low load phases that result in an average genset utilization of only about 35 percent. This is due to the ship being in a waiting position for extended periods while on-site and having to hold its position.

Figure 1 illustrates this. The time proportion is represented by the size of the circles. These load shares are further clarified by Figure 2.

To see the fuel savings that are possible with a variable speed unit, the following evaluation shows the results of the supply ship operating in the North Sea, powered by four mtu engines of type 16V 4000 M63L (variable speed) from which loads of <25 percent were driven approximately 80 percent of the time.

These operating points are associated with high specific fuel consumption for constant speed-operated units. This is where the decisive advantage of a variable speed unit comes into play: namely the fuel economy. In the present case, this amounts to about 15 percent, which roughly equals € 250,000 per year or, with a term of 20 years, a total savings of about € 4 million.

Quieter operation

An additional benefit of a variable speed unit that is especially noticeable is the reduction of sound emissions. This plays an important role, especially in terms of comfort, as operating personnel on these ships is often exposed to noise and vibration emissions over very long periods.

Comparison of surface noise (sound pressure level) at a power of 500 kW (about 20 percent load):

• mtu 16V 4000 M63L (variable speed) at 1,135 rpm ◊ approx. 95 dB (A)
• mtu 16V 4000 M43S (constant speed) at 1,800 rpm ◊ approx. 101 dB (A)

At first glance, the difference of 6 dB does not seem to be very significant. However, + 6dB means twice the measured sound pressure. And when considering that humans perceive an increase of 6-10 dB as being nearly twice as loud, this value shows in a very impressive way the advantages of a variable speed unit.