Thursday, May 8, 2008

Oily Water Separator

Typical Japanese made Oily Water Separator

Every ship needed to fit oily water separator to conform to the MARPOL (Marine Pollution) Convention set by the IMO. Its main function is to process the oily or dirty water inside the engine room (usually bilge) and discharge the process water to the sea in order to protect the environment. The discharge water must be less than 15ppm (parts per million) according to the regulation. There are many manufacturers available with the Japanese and the European manufacturers have the better quality. Korean also manufactured a handful model with decent quality. China also manufacture actively lately but of poor quality.

A typical Japanese built oily water separator is as shown (TAIKO TYPE, UST Type Series). This type of oily water separator is divided into 1st, 2nd and 3rd chamber. Coalescer is installed in both the 2nd and 3rd chambers. For this equipment, a gravity separation method has been adopted, by which oil is separated from water by the difference of the specific gravity between the two.

Oil/water mixed liquid, accumulated in the bilge tanks is led into the inlet of the oil separator by a bilge supply pump. Then, it is roughly separated in the 1st separation chamber. At this time, sludge can be also separated and is then accumulated at the lower inlet. It is necessary to open the sludge valve sometimes in order to transfer the sludge into the sludge tank.

As fine grained oil is still contained in the oil/water liquid which is roughly separated in the 1st separation chamber, the oil/water liquid is coarse grained nearly to 100% by the coalescer in the 2nd separation chamber. Here, almost all of oil is floated and separated. To ensure reliability, this separator is provided with the 3rd separation chamber which is also consist of the same type of coalescer. The treated water of which oily density is super thin (less than 15ppm) is drained out of the ship.

The oil and oily matters floated and separated in the 1st and 2nd separation chambers are accumulated in the oil reservoirs in those chambers. The level of accumulated oil is detected by an electrostatic capacity type probe. Then, a solenoid valve is opened by the command of this detector. Accordingly, the oil is automatically drained in due course.

Schematic Drawing of the Operation of Oily Water Separator


The European manufacturers (and the bigger tonnage ship) will usually incorporate a 15ppm alarm where should the discharge is more than 15ppm, the 3 ways valve will shut down to prevent the discharge. The alarm will also be audible to alert the engineers onboard.

According to the regulation again the discharge via oily water separator is also prohibited within 12 nautical miles from the land. In reality, very few ships actually use oily water separator to discharge the bilge water. Most of them just directly discharge the bilge water overboard and damage the environment in the process. The reason is simple, the discharge by oily water separator is slow. The rate of discharge is probably 0.5m3 per hour.

This is how a coalescer looks like

For maintenance, the coalescer should be clean and if damaged, it should be replace with new one. The inside of the separator must be cleaned to wipe off the stains or oily matters.

Stains and oily matters inside the oily water separator

The effectiveness and the operation of the oily water separator is surveyed annually by the Classification Society in order to maintain the ship’s International Oil Pollution Prevention (IOPP) Certificate.

2 comments:

Unknown said...

Hi. Do you happen to have this UST type OWS manual? I have one but it is in Japanese

Anonymous said...

Please share the manual