Dissertation submitted in compliance with the requirements for the Masters Diploma: Mechanical Engineering, Technikon Natal, 1990. / Increasing fuel prices have forced marine engineers and diesel engine manufacturers to look at methods
of. reducing fuel consumption without a loss in output power.
Engineers are always Investigating the following points:
(1) decreasing the specific fuel consumption
(2) enabling engines to use worse fuels
... (3) extending part load capability
(4) using as much waste heat as possible.
The sources of heat loss are investigated and the design of an efficient heat recovery system has been
evaluated for Ideal temperature and heat conditions. after taking lnto consideration the various methods
of heat recovery that are possible on the fishing trawler MFV Roxana Bank.
Sources of heat loss identified by engine manufacturers are found primarily in engine cooling water and
exhaust systems. These methods are investigated and extra heat transfer systems have become
apparent.
The use of exhaust gas boilers in diesel engine installations has become widespread as there is always
a demand for heating services regardless of vessel type.
The predominant form of heat transfer on the Roxana Bank is by forced convection and fluids must
always remain in a turbulent state when passing through heat exchange apparatus.
The introduction to heat exchangers shows that a high degree of turbulence in both primary and
secondary fluids will the overall heat transfer coefficient and also reduce fouling.
The design parameters of the heat recovery systems discussed as suitable for the Roxana Bank require
the existing cooling water system to be scrapped and a fresh water system with one central cooler to
be designed with a high temperature and a low temperature circuit together with a variable speed pump
arrangement.
should be fitted with such central cooling systems for a number of reasons.
The central cooler system Is discussed In detail and it is shown that existing ships and/or new buildings
The heat recovery system requires a certain degree of automation to prevent undercooling of the main
engine systems and to maintain set Inlet and outlet temperatures to makers specifications.
After attending the Roxana Bank on the 09/10 November 1989, the monitored operati~g parameters
show a marked deviation to the Ideal temperatures, particularly In the cylinder cooling water circuit
... temperatures. The adverse effects these deviations have on the heat recovery and combined engine
load fluctuations found on the Roxana Bank show that steady state heat recovery Is difficult to achieve
on this particular type of vessel.
Through calculation it Is shown that the envisaged steam turbine alternator is not practical due to the
combination of low feed water inlet temperatures to the boiler and insufficient driving steam. The
consequence of the reduction in electrical load on the power take off alternators have on the exhaust
gas mass flow rates due to reduced engine load are also discussed.
A brief mention is also made of organic fluid and thermal oil systems as a form heat recovery and
possibilities for efficient heat transfer using these systems.
ii
Recommendations are made to Irvin and Johnson with regards to a centralised cooling system and the
benefits that can be realised with regard to more efficient heat exchanger operations, but that heat
recovery on the Roxana Bank from the proposed sources is not a viable proposition. / M
| Identifer | oai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:dut/oai:ir.dut.ac.za:10321/1902 |
| Date | January 1990 |
| Creators | Fiddler, David Michael |
| Contributors | Gowans, B., Calder, P. |
| Source Sets | South African National ETD Portal |
| Language | English |
| Detected Language | English |
| Type | Thesis |
| Format | 318 p |
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