Browsed by
Category: General Engineering Knowledge

Exhaust Gas Boiler on Ships – Marine Engineering

Exhaust Gas Boiler on Ships – Marine Engineering

Exhaust gas boiler (EGB or EGE) or economiser described in this article is a smoke tube boiler with steam space, used for heat recovery from main engine exhaust gas. An illustration of the boiler is shown in figure below. The exhaust gas boiler is designed as a vertical boiler with a cylindrical shell surrounding the boiler tubes and water drum as well as the steam space. The tubes consist of a large number of smoke tubes and a small number of stay tubes. The stay tubes with an increased diameter act as support for the boiler. Both types are welded onto the lower and upper tube plates. The steam space is formed by the shell plate and internal cone. At the top it is closed by means of the end plate.

introduction to exhaust gas boiler

In the exhaust gas boiler tubes, heat from the main engine exhaust gas is transferred to the water side by convection. On the water side, the heat is transferred by evaporation of the saturated water adjacent to the tubes where steam bubbles are formed. As the steam bubbles have a much lower specific density than the water, they will rise rapidly to the steam space where water and steam are separated. The steam space of the boiler is designed to absorb the shrink and swell volumes. It is advisable, however, to avoid sudden and large load variations as this might create instability in the steam system, and cause level alarms.

As the pressure part is made of mild carbon steel with elevated temperature properties stress concentrations in corner welding are minimised. In emergency mode the exhaust gas boiler can therefore be operated with low water level and even without water with the full exhaust gas flow through the boiler tubes, provided the boiler is operated depressurised and the inside temperature does not exceed 400˚C.

For inside inspection, the boiler is arranged with both hand holes and manholes. Two manholes are arranged at the bottom end of the boiler shell for convenient access into the water drum. For visual check of the smoke tubes and steam space, a number of hand holes are arranged in a suitable distance at the bottom and top of the boiler shell.

The boiler foundation consists of four foundation consoles giving the necessary support and absorption of the thermal expansion.

Finally, the heating surface dimensions of the boiler are designed to maintain a sufficient exhaust gas velocity giving the best self-cleaning effect within the design limits. However, after long term operation soot deposits can be accumulated inside the boiler tubes. The heating surface of the boiler can be cleaned easily by means of water washing or by adding soot remover into the exhaust gas flow using compressed air.

Reference:

MISSION™ OL Boiler Manual by Aalborg Industries

    HP P