Thinking about buying or insuring a boat in Preveza Greece??

Thursday 27 November 2014

Seamaster 813

Today's assignment was at Upton Dyke at Anne Whelptons Boat Yard Surveying this Seamaster 813. The Broker acting for the sale was Pam at Broadland Yacht Brokers. 

This boat was designed by John Welsh and a departure from in-house developments. The medium to shallow V hull together with a long shallow keel allowed for an easily handling cruiser.

Several other manufactures used Seamaster moulding to produce their own versions. This includes Ardvark Aird marine and latterly Bounty Boats. Im sure the hull is still used today by Viking 26 with their 26ft widebeam.

The craft also has a square foredeck to offer more space. This model has a particular emphasis on reducing production costs, over 400 of these boats were made.
Lifting her out at Upton Dyke ready for inspection

Love this classic wooden wheel...

The factory built boat was unique in having through standing V berth configuration forward but with the shower toilet compartment extending across the width of the boat. A conventional dinette and galley area is further aft. 



The engine installation vary enormously from single petrol shaft drive to twin diesel. This example had a single BMC Thornycroft 1.5 diesel. Some models also had Volvo petrols with outdrives. 

Thinking of Buying a Boat and Need Help? I specialise in Boats of all types, and I will assist you to make an informed decision. Contact me for a detailed and comprehensive report at:  steventruss1@aol.com 


Wednesday 26 November 2014

Grand Banks 42 Destiny Refit stage 2

Now winters set ive decided to get stuck into my own boat... part 2 of the Refit! We have enjoyed sleeping in the front double berth all year, but there is so much more room in the back, more like a minny lounge, so im going to build a double bed. There are some good Google images to copy, as most GBS were fitted with doubles, mine was unusual with two singles. As you can see ive gutted the cabin and started replacing the rotten bulkheads behind the water tanks. Its a job id know about when I bought her, but I was surprised at the extent of the deterioration. A bad design on the old Woodies, the rain water gets in around the aft deck hatches and works its way down behind the water tanks. Someones already replaced these once, so its an on going problem i will try to solve. The tanks are only about 10 years old so they are fine, the new plywood bulkheads i will epoxy seal to help prevent the rot happening again.

You can see where ive started cutting out the bulkheads. (grey water tanks behind). The ordinal single bed to the right will stay, the other has been removed along with the chest of draws creating a large space for a double bed. The floors, hog, stringers and former's are all in great shape!

This is an image off Google giving me the idea of the new layout....Ill use all the old Teak woodwork so i can make it look as original as possible. 
Stage 2 coming soon.... Xmas time Job!! 

AN INTRODUCTION TO LPG INSTALLATIONS

I'm presently refitting my gas system on my Grand Banks 42 after numerous failures from a recent BSS inspection. Ive had this article on my website for years so thought id post as an introduction to LPG installations. 

Any fuel that produces a flame consumes oxygen when burning and gives off carbon dioxide (CO2) and water vapour. Boats interiors have little volume, and cabin spaces are normally well sealed (they must be to be watertight). The oxygen available in a closed cabin can be consumed quite rapidly. Insufficient oxygen makes the fuel burn improperly and, instead of producing carbon dioxide, it begins to form a deadly carbon monoxide (CO). The combination of oxygen loss and carbon monoxide build up can be fatal-it has caused a number of deaths over the years. Always insure adequate ventilation when burning any fuels; this includes running diesel engines, which sometimes obtain their air via the living spaces in spite of the fact that they should be independently vented. Do not use an appliance for heating unless it is so designed. Never leave a heater on overnight unless it is vented outside the cabin area and adequate air supplies are assured.

LPG (Liquid Petroleum Gas) is kept under pressure as a liquid and when released becomes a heavy flammable gas that is much heavier than air. The aim therefore is to minimise the risk of this gas escaping into your boats interior, where it could quickly accumulate, creating an explosive ‘mix’ of gas and air.

This chapter concentrates on how best to store LPG, how to supply your gas appliances and how to protect the gas system and installation from heat and impact damage. It is always strongly recommend that any work on LPG systems is carried out by a competent gas fitter.

GAS

The two main types of gas in wide spread use are propane and butane. Butane and propane both liquefy at low pressures and temperatures. As gas is pumped into a cylinder at ambient temperatures, these pressures are reached quickly. Then as more gas is pumped in, it liquefies-with temperatures and pressure remaining relatively stable. When a full cylinder is rocked from side to side, the liquid can be heard sloshing around inside. In higher ambient temperatures, pressures in an LPG cylinder will increase somewhat, but never beyond 250PSI; in lower temperatures, it will decrease.

As long as an LPG cylinder is kept upright, there will always be gas at the top, liquid at the bottom, and stable pressure-until the cylinder is almost empty. At this point the pressure begins to fall as the last of the liquid evaporates.

The principle difference between butane and propane is the former liquefies at higher temperatures and lower pressures for the latter. In extremely cold weather, liquid butanes rate of evaporation from a cylinder can slow to the point at which appliances fail to work properly. In these conditions propane should be substituted.

In the UK appliances operating on Butane do so at a pressure of 28 millibars and Propane at 37 millibars. It is not generally possible to change from one fuel to the other without changing the regulator, hence the cylinders and regulators have different threads and fittings to avoid mishaps. As a point of interest butane has a higher calorific value and a slighter hotter flame temperature.

SAFETY PRECAUTIONS

LPG forms a dangerously explosive mixture when combined with oxygen in the air. LPG is considerably heavier than air-gas leaks sink to the bilges. LPG leaks are particularly dangerous on boats: Small leaks can remain undetected in deep bilges. A tiny spark (which can be generated by static electricity on any boat) can blow the boat apart.

INSTALLATION PRACTICES

Compartment requirements: Gas bottles, both in use and in storage, must be kept well secured in compartments that are sealed from all machinery and living spaces, and vented overboard. LPG compartments need to be vented from the base with a minimum internal diameter of 19mm (B.S.S exemption to 12mm on older vessels), which slopes continuously downwards so that no water can form a U-trap, which exit’s the hull above the waterline at all angles of heel. This is continuously picked up during surveys, many drain hoses are found to be looped up and contain water! All gas vents must exit well clear of engine exhausts, ventilators, and air intakes. Gas cylinders must be secured in an upright position (again very few cylinders during surveys are secured properly). If an LPG cylinder tips over, liquid instead of gas might come out-with potentially dangerous results.

MARINE GAS DETECTION

Suitable means for detecting the leakage of gas should preferably be provided in each compartment containing a gas-consuming appliance. Gas sensor heads should be protected against damage caused by water and other corrosive agents, and the risk of mechanical damage. The consequences of an LP gas leak on board a boat can be disastrous. Every year there are deaths and injuries on board boats, which could have been avoided with the installation of easy to use and cost effective gas detection equipment.

LP Gas is not regarded as poisonous but is explosive and can lead to devastating explosions if it builds up to sufficient levels. It is measured using what's called the Lower Explosive Limit (LEL). This means that when the concentration of gas reaches 100% LEL it becomes explosively dangerous (i.e. if you lit a match it would go bang). Most gas alarms are calibrated to alarm at 10% LEL, well before the gas becomes explosively dangerous.

A strong smell of gas can be noticed when the concentration is only 0.5% to 1% LEL because gas suppliers add a harmless but strong smelling chemical to the gas. Despite the strong smell this level is not dangerous and therefore the alarm will not sound. This reduces the possibility of false alarms.