Explanatory notes relating to the fitting of “Noise Abatement Mechanisms” on power-driven small vessels, as
required by Part VI, Section 37, of the Small Vessel Regulations of the Canada Shipping Act. Noise reduction in power-driven
small vessels can be achieved in a number of ways; the following examples illustrate some acceptable solutions to addressing
the issue.
Noise reduction in power-driven small vessels can be achieved in a number of ways; the following examples
illustrate some acceptable solutions to addressing the issue.
Outboard motors have addressed the issue by directing the exhaust gases through the propeller hub or below
the cavitation plate
Inboard-outboard installations (I/Os) have addressed the issue by directing the exhaust gases through the
propeller hub or below the cavitation plate.
The installation of the following components in a wet exhaust line would be complying with the regulation:
A muffler is an expansion chamber within the exhaust line specifically designed to reduce engine exhaust
noise.
A waterlock is a device intended to prevent back flooding of cooling water into the exhaust manifold with a
side benefit of some noise reduction.
A diverter, used to direct exhaust gases below the waterline, is acceptable.
Guidance Notes and Explanation Showing Some Possible Installations
The following is provided for guidance only relating to acceptable engine exhaust noise muffling arrangements.
It is not intended as an installation guide or to cover all possible installations. Engine manufacturer’s
recommendations should be followed with respect to specific installations.
DRY EXHAUSTS should be equipped with a muffler (silencer) generally as indicated in Figure A4–1. The muffler
should be sized as large as practical and designed to ensure maximum sound attenuation with minimum back
pressure. Dry exhaust systems may be used for propulsion and generator engines of any size.
WET EXHAUST Systems may make use of water locks and wet mufflers, or both. Water locks alone may provide
sufficient sound attenuation, and are thus suitable for generator engines and smaller propulsion engines. With all
wet exhaust systems, care must be taken to ensure water cannot back-siphon into the engine. Depending on the
relative height of the waterline an anti-siphon valve or siphon break may be required (not shown in figures).
Figure A4–3 Typical Waterlock System with Muffler ^ |
![Figure A4–3 Typical Waterlock System with Muffler](/web/20060212064248im_/https://www.tc.gc.ca/marinesafety/TP/TP1332/images/Fig-A4-3.gif)
For LARGER ENGINES a waterlock may be supplemented with a specially designed muffler.
Figure A4–4 Typical High Performance System ^ |
![Typical High Performance System](/web/20060212064248im_/https://www.tc.gc.ca/marinesafety/TP/TP1332/images/Fig-A4-4.gif)
For HIGH PERFORMANCE applications an effective muffler should be fitted. Depending on the relative height of
engine to waterline, a check valve to prevent backflow of water into the engine may be required. Check valves
may be at the transom, integral with the muffler or both.
Figure A4–5 Typical High Performance System with Diverter ^ |
![Typical High Performance System with Diverter](/web/20060212064248im_/https://www.tc.gc.ca/marinesafety/TP/TP1332/images/Fig-A4-5.gif)
For COMPETITION CRAFT a diverter may be installed, allowing exhaust gases to pass without restriction where
conditions permit. Where conditions require sound attenuation, the diverter is used to divert the exhaust gases
through an alternate exhaust system fitted with a muffler or passing through an underwater penetration in the
hull.