Thursday, June 10, 2021

29th April 2021 #3 Skyfall and rainfall in Loch Hourn.

 

As we paddled east along the south shore of Loch Hourn the mountains closed round us.

Loch Hourn is a flooded U shaped glaciated valley and in some places the mountains fall straight into the sea as here at Creag an t-Sagairt (roughly translates as pulpit rock).

On the north side of the loch, Arnisdale House was dwarfed by the foothills of Beinn Sgritheall. This was the inspiration for James Bond's ancestral home "Skyfall". It was built by Valentine Fleming, the father of Ian Fleming who wrote the James Bond books. Valentine's father was Robert Fleming who founded the eponymous investment bank. The family were not short of an odd bob (or odd job) or two.

All was deceptively quiet as we passed Eilean a' Phiobaire (Piper's Isle) but a storm was gathering. 

Within seconds the sky started to fall round our heads. The temperature plummeted as violent squalls of wind, rain, hail and sleet swept down from the high corries. We were in for a pasting.




Monday, May 24, 2021

29th april 2021 #2 Crossing the deep at the mouth of Loch Hourn.

From Camusfearna we followed the pine covered rocky coast of the Glenelg peninsula south until we came to the entrance of Loch Hourn.

This sea loch stretches deep into the mountains for 22km from its mouth on the Sound of Sleat. 

We set off across its entrance for the south shore while my brother in his little RIB "The Guppy" motored slowly up the north shore so as not to disturb us.

The NE wind dropped in the lee of Beinn Sgritheall, 974m, as we passed the halfway point at a shallow reef marked by a pole; Sgeir Ulibhe or Wolf Rock. Don't be fooled by the apparent shallow water, just to the south of the rock, the glacial trench that forms Loch Hourn is 189m deep. That is deeper than the Atlantic Ocean until about 100km west of the Outer Hebrides!

As we cleared the Glenelg peninsula, a magnificent view of the rocky Skye Cuillin ridge opened up to the WNW.

By the time we had crossed the mouth of Loch Hourn and...

...reached its Knoydart shore, it was well past time for second breakfast.



Sunday, May 23, 2021

29th April 2021 #1 A frosty start on the turquoise waters of the Sound of Sleat.

There had been a succession of heavy rain squalls throughout the night. We were awoken by the Camasfearna cuckoo's calls, which travelled over the channel from the mainland. When we emerged from the tents the sun was rising above the hills. The day dawned cold and clear with frost on the tents and the boats.

Ian and I shared breakfast together while the sun and an increasing NE wind dried the tents. You can read Ian's account of the trip starting here.

Cloud started streaming from the summit of Beinn Sgritheall (974m) which hinted at gusty conditions in Loch Hourn, our intended destination, at its base.

We  launched into the turquoise waters of the sandy bottomed shallows but...

...soon we were in the deeper ultramarine waters of the Sound of Sleat.

A fair breeze pushed us south towards the mouth of Loch Hourn.

My brother Donald was nipping ahead in his little 2.75m RIB with 6HP outboard. Every so often he would stop and video our progress. You can see his video of the trip here.
 

Saturday, May 22, 2021

28th April 2021 #2 Sunshine and sleet on the Sound of Sleat.


It has been a cold start to the year and the NE wind brought a series of Arctic squalls to the Sound of Sleat. These brought a bonus of dramatic lighting conditions though trying to erect our tents on the exposed reef took a bit of care in the accompanying wind.

Fortunately the worst of the squalls seemed to pass and we got our camp in order.

As the tide was still low...

...we wasted no time in gathering driftwood for a fire on the sands. We kept our kayaking gear on as the sun did not look like it would last long.

Then the skies darkened with the approach of yet another squall. We rushed to our tents and were deafened by alternate lashings of rain and sleet on the thin tent walls.

As the storm passed, on its way into Loch Hourn, we emerged from our tents into the watery evening sunlight.

Graceful rainbows arched over the still dark mountains, which had a dusting of fresh snow  on their summits.

Hardy primroses seemed undeterred by the weather and neither were we.

We set to and got the fire going as we swapped yarns and...

...finished our meal.

A watery sunset slipped away on the far side of the Sound of Sleat before another squall put an end to our evening by the fire.

Wednesday, May 19, 2021

KCS Pro Kayak Sail System test and review.


Photo by Donald Wilcox

Since lock down lifted I have been testing various prototypes of the KCS KY-PRO Sail System. The system is available in three versions:

1. Sail only to fit other rigs such as Flat Earth Kayak Sails.

2. Sail, carbon fibre mast and boom, universal joint and deck fittings which require the deck to be drilled.

3. Sail, carbon fibre mast and boom, custom front hatch with mast foot and stay fittings, cleats that can be attached to the RDF fittings near the cockpit by using longer bolts. This option is for those that do not want to drill their deck or want to attach a sail to a borrowed, hired or demo boat.

Background to the test
I have been a long time user of a variety of kayak sailing systems. I have owned and used Pacific Action V sail, the KayakSailor rig and various Flat Earth kayak sails. I have also borrowed and used the Baloghsailsystems Batwing and Falcon Sails rig. They all are excellent in their own way and each has their strengths and weaknesses.


For the type of paddle sailing I do in the west of Scotland I prefer the Flat Earth sails in 0.8sqm size. They suit the open exposed waters and the sometimes gusty winds off the mountains. They are not as large and powerful as the KayakSailor, Baloghsailsystems and Falcon Kayak Sails rigs so you always need to paddle while you sail but in chilly Scotland this keeps you warm, especially in winter. The Flat Earth Kayak Sails in addition to being smaller also have a looser leach and this gives them a much wider wind range than the other designs.

I was therefore delighted when Ronnie Weir of KCS produced his prototype sails to find they are a similar size to Flat Earth designs and, though of different design and materials, have a similar range of intended use, i.e. for most users they are intended to be used on flat or rough open water from F2 up to F4/5. The KCS sails are made in Scotland by Owen Sails, a long established yacht sail maker based in Oban. Owen Sails started out in the mid 1980s making windsurfing sails and I still have one of their 6sqm, six batten slalom sails. So they know about smaller sails too.

This test was carried out on the Solway Firth, Firth of Clyde, Firth of Lorn, Sound of Sleat, Loch Hourn, Kyle Rhea, Inner Sound and Loch Carron on the west coast of Scotland. Conditions varied from F2 to F5.

Sail construction.

This sail is constructed from heavier cloth than the equivalent Flat Earth sails. The 0.75sqm KCS is also a good bit smaller than the FE 0.8sqm. The upper/luff panel is made of Dacron which is flexible enough to give warning when the sail is about to backwind if you point too high into the wind. The leech/lower panel is made of a heavier trilaminate cloth than that used in Flat Earth. The sail is loose footed unlike the Flat Earth TradeWind sail, where the boom is sewn into the sail like a batten. The KCS also has a longer boom and sets fuller with a deeper draught than the equivalent size FE. Like the FE TradeWind sail, the KCS sail is a spritsail with a single diagonal batten, which rises from the tack (the corner of the sail where the boom meets the mast). The KCS sail has a stiffer batten than the FE and the batten is sewn into the pocket with more tension than in the FE. This means it puts more 3D shape into the sail making it more powerful for its size. However, in very light winds, the batten might flip its curve to the wrong side of the sail. The stiffer batten also holds onto the sail's power longer in a gust before twisting off and releasing wind pressure from the roach of the sail (the part near the upper end of the batten).



The 0.75sqm KCS KY-PRO sail overlaid on a 0.8sqm Flat Earth TradeWind sail. Note similar head and upper roach but reduced area, shorter luff and longer foot of the KCS. 

1. The KCS KY-PRO 0.75sqm sail tested  Flat Earth aluminium mast and boom with the mast foot bolted to the foredeck forward of the compass recess.

The KCS sail was paddled alongside a Flat Earth TradeWind 1.0sqm and...

...a Flat Earth TradeWind 0.8sqm in a variety of wind strengths from F2 to F5.  The KCS sail performed excellently overall but especially in the higher winds. In lighter winds both sizes of the FE TradeWind sail have the edge on a reach/broad reach.






However, at bottom of  F4 the KCS produces more power and in  mid F4 and above feels significantly more powerful than the 0.8sqm TradeWind. In gusty F4 conditions the TradeWind remains very controllable due to the leech twisting off more easily but in doing so it looses power. The tighter leeched KCS is more powerful but, as it is significantly smaller, remains a lot of fun in these conditions. It does require a bit more experience to handle than the TradeWind in these upper end conditions. In this respect, it is similar to the double battened, loose footed, Flat Earth Footloose sail. Overall, I think the KCS sail is a good compromise between size, leech tension and fullness of cut/power for use on exposed open water. Upwind when paddling in F3/F4 there is little performance difference between the KCS and the Tradewind except, when well worn, the loose Tradewind leech motors (flaps) in the breeze.  The KCS sail is not showing signs of this after two years of use.

2. The KCS KY-PRO 0.75sqm sail tested on the KCS carbon fibre mast and boom with the mast foot bolted to the foredeck, forward of the compass recess.
The KCS carbon fibre mast is one piece but a two piece may be available in the future. 

The compression collar round the mast retains the two back stays, two side stays and the uphaul/fore stay. It is simple and avoids the need to drill the mast, which could weaken it. A longer thinner collar at the bottom of the mast slides over the mast base universal joint stub.

The most recent P&H composite kayaks like the Volans have a moulded flat forward of the compass to 
mount the deck plate. They also have deckline RDFs mounted laterally to the deck plate position to give the best support to the past. The side and back stays can be attached to these using a short loop of the supplied 2mm dyneema line.

Older P&H composite kayaks like the Cetus usually do not have a suitable deckline RDF lateral to the deck plate. The fitting kit comes with two SDF fittings that can be bolted through the seam wich is very strong compared with the decks in some kayaks.

The fore deck of all P&H composite kayaks has been reinforced for a mast foot for about the last 10 years. On other kayaks such as this Evolution Kayaks Nomad (Northshore Atlantic) and my Nordkapp LV I have reinforced the underside of the deck (from seam to seam) with  a 10cm wide arch  of 10oz woven cloth and resin.

KCS mast foot on left Flat Earth mast foot on the right.

The KCS UJ/mast foot is a Seasure Quick Release Tiller Extension Joint. The deck plate fixing hole centres of this and the current black Ronstan fitting used by Flat Earth sails are both 22mm apart. The original Flat Earth red deck plate (photo above) had hole centres 32mm apart. If you already have a red Flat Earth deck plate on your kayak, you can use the FE UJ/mast foot with the KCS mast. However, the KCS mast foot is 18mm in diameter and the Flat Earth mast foot is 16mm in diameter. You can do as I have done and pad out the Flat Earth mast foot with electrical tape or KCS can supply a carbon fibre sleeve to glue over the Flat Earth mast stub.

If you have no previous sail fitting then you will need to drill the kayak deck. P&H RM kayaks come with brass inserts with centres 32mm apart for the red FE deck plate. However, for both current KCS and Flat Earth deck plates you will only be able to use one insert and so will need need to drill one hole.

The boom has a very neat hinged joint at the gooseneck and...

...the sheet is attached to the boom with an elastic loop to help absorb the force of gusts.

...the outhaul is very slim and neat and allows more expert paddle sailors to control the fullness of the sail.

There is no kicking strap on this type of sail and as the shrouds are below the boom, the boom can swivel forward  in front of the mast. This is an important safety feature as it allows you to depower very quickly if you get hit from behind by a sudden overpowering squall. In these conditions it can be very difficult to either pull the sail down towards you against the wind or to turn the bow into the wind to allow the sail to be blown back towards you.

Everything worked well, the sail set nicely on the carbon fibre spars.  These look great, but I could not honestly detect any difference in performance over the aluminium spars in the Flat Earth rig.

The sheet (yellow) comes down from the boom and threads through a Ronstan shock block that is attached to the forward midline deck elastic RDF by 2mm dyneema. 

The sheet then runs back to an open Fineline cleat in front of the cockpit which has been fitted by drilling through the deck. For those paddle sailors who cannot bear to drill holes in a shiny sea kayak see next section. The forestay/uphaul goes from the mast forward to another Ronstan shock block which is attached to the forward deckline RDF at the bow and then back to another fineline cleat on the other side of the cockpit.

3. KCS KY-PRO Sail, carbon fibre mast and boom, tested on custom front hatch with mast foot and stay fittings.

This is a really novel and well engineered solution for people who do not like drilling holes in their kayak. It consists of a circular outer plate just bigger than the hatch rim and an oblong inner plate, which is narrower and longer than the hatch diameter. These are secured together by three bolts with captive thumb screws. The red and white rope forms a handle to pull the two plates together in such a way that the three bolts in the lower plate line up with the three holes in the upper plate... pure genius! There is the potential for a little water to get in through the holes the rope comes through, you could put a little Vaseline on the rope, but I have not noticed any leakage. The mastfoot/UJ and side stays attach to the aluminium spreader bar, which is positioned at the forward end of the hatch to maximise up wind sailing performance. Access to the front hatch is restricted compared with the usual hatch cover but I was surprised how easy it was to fit and remove. Indeed in cold weather it was actually easier than some conventional rubber hatch covers!!!

The cleats for the uphaul and the sheet are also fitted without drilling. they are attached to the deckline RDF fittings nearest the cockpit using longer than standard bolts. To stop the cleats swivelling a short piece of cord secures the front of the cleat to the adjacent RDF.

The mast foot is obviously to the rear of where most kayak sails would be mounted in front of the compass recess (how this affects paddle sailing is discussed below).


The rearward mount does mean that the stowed sail has a greater overlap with the cockpit. This may bother some. It did not bother me at all.

This is the view forward when the sail is stowed. I was very pleased by how unobtrusive it was. On the production version, the aluminium spreader bar will be even lower.

With the sail rigged on the KCS hatch mount it sailed just as well when running off the wind as when it was mounted further forward on the foredeck.

I also noticed no difference in performance on a broad reach.

However, once on a beam reach to a beat, I started to clatter the end of the boom with the paddle. I switched from a high angle to a low angle paddling style and that solved the problem. This is a limitation of having the sail mounted closer to the cockpit.

Another limitation of the more rearward hatch mount is when beating upwind. You can only point at 60 degrees off the wind with a tacking angle of 60 degrees. When the sail is mounted forward, you can point closer to the wind, at 45 degrees off the wind, which gives a tacking angle of 90 degrees. The formula for working out the pointing angle (p) from the tacking angle (t) is p = 90 - (t/2)

Conclusions.

1. The KCS KY-PRO sail is a very well made small but powerful kayak sail which has superb performance, especially as the wind increases.

2. The KCS carbon mast, boom and stays are well made, light and strong, with great fittings.

3. The KCS hatch mount with mast foot and spreader bar for stays is a brilliantly engineered solution for those that do not want to drill holes in their own boat or want to fit a sail to a borrowed boat. Its downwind paddle sailing performance was unaffected but it does limit pointing angle upwind and cause the paddle to hit the boom if you use a high paddle style going upwind or across the wind. 

Potential paddle sailors now have a choice... to drill or not to drill. What a great addition to the choice of paddle sailing equipment available to kayakers. An innovative and flexible paddle sailing system that both performs and is made in Scotland.

Lastly, the way the hatch mount is constructed, I can see no reason why an existing paddle sailing rig, such as a Flat Earth rig, could not be fitted to the hatch mount.