Go Back   Shipping History > Shipping Discussion > Shipping Lines > Shaw Savill

Northern Star. Voyage 1

Post Reply
 
Thread Tools
  #1  
Old 26th September 2018, 20:24
ALARIC England ALARIC is offline
Member
 
Join Date: Apr 2017
Location: Rutland
Posts: 29
Images: 4
Northern Star. Voyage 1

Northern Star’s Early Life. An Engineer’s view. Part 1.

There have been a number of accounts published, telling of the problems that beset Northern Star during its early life, but they have been incomplete or contained inaccuracies.
This is the story of the early voyages from the horse’s mouth, the horse being me, Junior Engineer ‘B’ (the lowest of the low, there was no Junior Engineer ‘C’).
I served my Apprenticeship with Shaw Savill, the final year being at Swan Hunters, Wallsend. When my time was up, I moved half a mile up the Tyne to Vickers Armstrong’s Walker Yard and stood by Northern Star during the final few weeks of fitting out.
I was very impressed by the company’s pride and joy, but my opinions started to change when the first dock trials of the main engines took place. I just could not believe how noisy the double reduction gears were, in their fabricated steel boxes. The noise was like a machine gun with the trigger permanently held down. As an Apprentice, I had sailed in Persic, and was later to sail in Corinthic and Athenic, all with single reduction gears housed in very old fashioned, massive cast iron boxes. The main engines and gears were so quiet on these ships that it was difficult to tell by ear whether they were stopped , running slow or even full ahead. Not so with Northern Star, it wasn’t necessary to consult the tacho to know how fast the engines were running, after a little experience you just listened. However, I expected that after a bit of ‘running in’ the noise would reduce. I was wrong, it never did, but it wasn’t as bad as some motorships I experienced later.
On 19th June 1962 the main engines started turning for real and we clattered our way down the Tyne, to go to sea for the first time. Although I had spent over a year on Tyneside, I had never sailed into or from the river. So when we were at the breakwaters I went up to the bunkering ports to have a look. I was somewhat surprised to find that we were leaving the river stern first! I never did hear a proper explanation as to why, but I had been with Shaw Savill long enough to know that this wasn’t normal. At this time Northern Star was still owned and operated by Vickers, perhaps they always did this?
With hindsight, starting its sea going life going backwards can be seen as entirely appropriate. Somehow, Northern Star never did get it right. If it could go wrong, it invariably did.
After clearing the Tyne, we sailed via the Pentland Firth and round to the Clyde for trials. These took place without any great drama, the speed runs on the measured mile off the Isle of Arran. One of the ship’s modern innovations was a new type of log, known as SAL, which had a read out in the Engine Room. The Engineers clustered around the instrument were disappointed with the maximum speed achieved. I can’t remember exactly what speed was reached, but it didn’t exceed 22 knots by much of a margin.
Another of the innovations was the new, compact design of boiler feed pumps by G&J Weirs of Cathcart. They had a single, central bearing lubricated by water tapped off the high pressure pump discharge.
Traditional turbo feed pumps had three, oil lubricated bearings. These pumps were very reliable, but big and expensive to make in comparison to the new design. After trials were completed, Northern Star anchored at Tail of the Bank, and Weirs sent a team down from Glasgow, and at least one of the new pumps was replaced. No problem! More about these pumps later.
On 10th July Northern Star sailed on schedule from Southampton on her maiden voyage. For the next year, the ship never managed to complete a whole voyage on schedule, in marked contrast to Southern Cross’s excellent timekeeping record. The staffing arrangements on Northern Star were based on her sister’s, and were on the generous side in view of the far higher level of automated control. I was mustered on the 4-8 watch, my area of responsibility being the Main Engine Room, shared with 2 other Junior Engineers on the other watches. Three 5th Engineers looked after the Alternator Room, three 3rd Engineers the Boiler Room and three Refrig. Engineers the Refrigeration and Air Conditioning Plant, all
headed by a 2nd Engineer on each watch. ‘Doc’ Lovett was Senior 2nd. Engineer on my 4 to 8 watch. The Chief Engineer was Mr. Brew, who had sailed for many years in that capacity on Dominion Monarch, and he was supported by the Staff Chief, Jack Warden. There were 4 or 5 Electricians on daywork, and last, but not least our two Apprentices. One being Malcolm Vincent, who I’m very pleased to note has just been elected President of The Institute of Marine Engineering, Science and Technology. (IMarEST).
All went well for a week or so, until two days out from Las Palmas on the afternoon watch.
Until this time we had been running with one oil cooler per engine, but as we headed south, the sea water temperature was gradually increasing, and early in the watch I brought the second coolers for each engine on line to maintain normal oil temperatures. A little later, I was walking along between the two engines when a shower of sparks, just like an oxy-acetylene cutting torch, suddenly shot out of the forward end of the starboard High Pressure Turbine. There were probably some strange noises being generated as well, but they couldn’t be heard over the Gearbox racket. Doc Lovett was standing just a few paces away at the Engine Control panel, enjoying his afternoon mug of tea, when he was rudely interrupted by my agitated shouting and pointing. Doc had a stutter, normally quite minor, but what he was seeing caused the longest “fffffffffffffff----------------ell” he ever uttered! While still only part way through his expletive, Doc grabbed the telegraph and rang ‘Stop’ and we both closed the main ahead steam valve as fast as possible. We also slowed the port engine down to stop the starboard engine rotating.
This done, the Engine Room soon filled with all the Senior Engineers on board, Jack Warden, Mr. Brew, Jack Foreman from Parsons, the engine makers and Shaw Savill’s Senior Engineer Superintendent, Mr. George Jackson. The starboard HP thrust bearing was quickly opened up, to discover that the white metal lining of the pads had virtually vanished, allowing the turbine rotor to move, causing the rotor blades to contact the fixed blades. As soon as what had happened had been established, attention turned to why. Mr. Brew quickly came to the conclusion that Junior Engineer ‘B’ was the cause, by getting air into the oil system when bringing the second cooler into use. I knew this was not the case, but I know others also had their doubts. However there was much work to be done, and this focused everyone’s attention away from me and onto the job. A job that nobody on board had ever done before, and has only been done at sea on very rare occasions.
All the Engineers and Engine Room crew worked 6 hours on and 6 off, to disconnect and isolate the HP turbine and put main steam directly to the LP turbine. My particular job was to blank off all the HP turbine drains, which meant that everyone else was working at various levels above me, and the first thing they all did was to strip lagging from the turbine and pipework. Most of this landed on me, to the extent that I looked like a snowman. After 24 hours of very hard and hot work the starboard engine was restarted and gradually worked up to its reduced maximum power. We soon resumed normal watches and started to get the Engine Room shipshape again.
Two days later, shortly before 0400 I was called for my watch, with`
the news that the port engine had just been stopped. HP Thrust Bearing failure, a carbon copy of the starboard problem. I was probably the only person on board who wasn’t entirely dismayed with the news, at least it pointed to a cause other than Junior Engineer B’s incompetence. We reverted to the 6 hour watch routine, and having gained a bit of experience on how to do the job, we had the port engine turning again in about 18 hours. I think we all did the same jobs as first time, so I got coated with asbestos lagging and became a snowman again. The ship managed a creditable 16 knots running on just the LP Turbine half engines, and so we eventually arrived at Cape Town where the HP turbine rotors were lifted and placed in packing cases, although they stayed on board until arrival at Fremantle.
Here, the rotors were put ashore and flown on ahead to Cockatoo Dockyard, Sydney.
Cockatoo resurfaced the thrust bearing faces and dressed up the damaged blading and gland seals. The Dockyard had done the best possible job, but the rotors looked decidedly second hand when they were returned to the turbine casings. I can’t remember if the original thrust pads were re-lined or whether new units were supplied by Parsons, either way, the same spec. white metal was used again.
The theory as to why the failures had occurred had now moved entirely away from Junior Engineer B’s misdeeds, and now centred on the Thrust Block mounting design. Cockatoo made alterations, to a revised Parson’s design which included replacing the rigid oil pipes with flexible hoses. After several days’ work, everything was boxed up, tested and the voyage to New Zealand continued, now back up to normal speed.
Dick Goodey
Reply With Quote
  #2  
Old 26th September 2018, 20:25
ALARIC England ALARIC is offline
Member
 
Join Date: Apr 2017
Location: Rutland
Posts: 29
Images: 4
Part 1 continued.
The engines behaved themselves until Northern Star was homeward bound, between Tahiti and Panama. It was a case of deja vu.
The starboard thrust bearing failed again, but this time the job only took 12 hours, and as soon as it was completed and the engine running again, the port engine was stopped and the thrust pads removed before total failure occurred. This proved to be the key in determining the real cause of the troubles. Another 12 hours frantic work followed, during which I became a snowman for the fourth time, and we were back on our trusty two half engines. I totted up the running hours from the Engine Room log, and found that the time from new to the first failures was almost identical to that between the Sydney rebuild and the second round failures. Hardly a coincidence. And so we finally returned to Southampton, 10 days late. Probably the most troublesome maiden voyage by a major passenger liner since Titanic!
We were lucky that the ship never actually stopped at sea, and the ship’s Engineers can be proud of isolating a main engine turbine four times in a single voyage. It is fairly certain that this had never happened before, and with the few remaining steam ships left at sea today, it is certainly a record that will never be equalled.
While the ship had been making its way home at 16 knots, the salvaged thrust pads were flown home and subjected to exhaustive tests and investigations. The primary cause of the failures was finally tracked down, and proved to be a chemical reaction that deposited a hard carbonised iron coating onto the thrust disc. This scored the machined steel face of the disc, which was an integral part of the turbine rotor. Eventually the soft white metal of the pads was ground away, allowing the turbine shaft to move forward by the thickness of the missing white metal. Builder’s dirt in the oil system was also thought to be a contributing factor. Certainly, a lot of rubbish was removed from the oil filters in the early days. I did not learn some of these detailed reasons until two years or so later when I received a copy of the paper that George Jackson presented to The Institute of Marine Engineers (now IMarEST) in Mark Lane. Surprisingly, no previous ship had been built and run with the combination of the particular steel for the turbine rotor and white metal for the thrust pads, together with the grade of oil to lubricate the turbine bearings and gearing. All three elements were widely used in many naval and merchant ship applications, but never together in combination.
The cure proved to be very straightforward. Before setting off on V2, the original “Extreme Pressure” grade oil, which was usually only used on high powered naval ships, was removed, the system cleaned and flushed and refilled by a fresh charge of straight mineral oil, without the EP additives. Parsons did extensive work to the rotors and blading, restoring them to near new condition.
I seem to remember that the grade of white metal was also changed. Certainly the pads themselves were new, and where supported by a hydraulic self aligning arrangement, and every pad incorporated a thermocouple, to continually monitor and record operating temperatures.
For the next 3 voyages at least, the Thrust Bearings were opened up regularly for inspection.
As far as I know, no other problems with the Thrust Bearings were experienced for the remainder of Northern Star’s short but eventful life.
Dick Goodey
6th January 2012
Reply With Quote
  #3  
Old 28th September 2018, 09:53
IJC 38 United Kingdom IJC 38 is offline
Member
 
Join Date: Jun 2018
Location: Torquay
Posts: 59
Thank you, always interesting to read a first hand account
Reply With Quote
  #4  
Old 28th September 2018, 10:37
YM-Mundrabilla's Avatar
YM-Mundrabilla Australia YM-Mundrabilla is offline
Senior Member
 
Join Date: Apr 2017
Location: Mundrabilla (haha), Melbourne really but I'd rather be in Narvik
Posts: 841
Images: 1775
Thanks Alaric 2 very interesting.
Reply With Quote
  #5  
Old 17th November 2020, 09:19
Alan Gamblin's Avatar
Alan Gamblin United Kingdom Alan Gamblin is offline
Member
 
Join Date: Jun 2018
Location: Southampton, Hants
Posts: 9
Images: 82
Northern Star V.1

Very interesting read. I do hope that your health didn't suffer after being a "snowman" four times ?


Kind regards
Alan G
Reply With Quote
  #6  
Old 17th November 2020, 12:10
Varley's Avatar
Varley Isle of Man Varley is offline
Senior Member
 
Join Date: Apr 2017
Location: Isle of Man, G.B.
Posts: 2,485
Yes. Also interesting to read Mr. Vincent's mention. My first commercial contact on coming ashore was he - then manager at 3 quays.
__________________
David V
Lord Finchley tried to mend the electric light
Himself. It struck him dead and serve him right
It is the duty of the wealthy man
To give employment to the artisan
Reply With Quote
  #7  
Old 12th January 2021, 11:40
ALARIC England ALARIC is offline
Member
 
Join Date: Apr 2017
Location: Rutland
Posts: 29
Images: 4
Quote:
Originally Posted by Alan Gamblin View Post
Very interesting read. I do hope that your health didn't suffer after being a "snowman" four times ?


Kind regards
Alan G
Have just gone back and re-read this thread and came upon your post Alan.
Thanks for your concern, but yes, playing snowman did eventually catch up with me.
Have been diagnosed with Asbestosis which has greatly reduced my lung capacity which results in being classified as clinically extremely venerable to covid19.
On the plus side, although Shaw Savill ceased trading in 1984. their insurers are still liable and reluctantly paid out compensation and I get priority with vaccine jabs and Tesco home deliveries. There is always a silver lining.
Reply With Quote
  #8  
Old 12th January 2021, 13:09
JGrainger England JGrainger is offline
Member
 
Join Date: Jun 2018
Location: Blackmore Essex
Posts: 9
Images: 85
Dick, hi. Just read your account on NORTHERN STAR, must have missed it first time. Interesting. Pleased you have a "silver lining".
Regards, John.
Reply With Quote
Post Reply


Posting Rules
You may not post new threads
You may not post replies
You may not post attachments
You may not edit your posts

BB code is On
Smilies are On
[IMG] code is On
HTML code is Off

Forum Jump

Similar Threads
Thread Thread Starter Forum Replies Last Post
Northern Star Voyage 26 pompeyfan Shaw Savill 13 31st July 2018 02:00


All times are GMT +1. The time now is 01:29.


Powered by vBulletin® Version 3.8.7
Copyright ©2000 - 2024, vBulletin Solutions, Inc.