Choice of SWA cable for burial below the water table

I checked a submerged swa immersed for over 10 years. Insulation resistance across the entire cable was faultless. Maybe just lucky.

The key is specification of the cable.  

When a cables insulation is tested, the test is carried out in relation to the voltage rating of the circuit. 

You must use the correct cable for the environment.  Taking into account the worst case. 

I worked in the water, for Scottish Water and infrastructure industry for Scottish Power.  Cables specification must be suitable.  

See this link for some ideas 

https://www.cef.co.uk/catalogue/products/2015173-10mm-3-core-ho7rnf-rubber-flexible-cable-cut-length-sold-by-the-mtr?gclid=Cj0KCQiAuP-OBhDqARIsAD4XHpfbsG1mE0NIvlC6Yi7SwFgq0dtghk2TXR5GqhvKhtps5Kh8KQJQPsgaAjU7EALw_wcB&gclsrc=aw.ds

Tough Rubber Sheathed cables are used in the renewables sectors for many applications.  

I'm not saying you must not use PVC but you will experience issues down the line, from my experience.  

Don't just take the word of others, here's what the cable manufacturers say about it.  

uk.prysmiangroup.com/.../underground

When I was on infrastructure engineering we would specify lead sheathed for chemical/water ingress.  DNO to consumers we're always direct buried into free draining soil/trenches.  If there was issues with free draining the specification was increased for better IP protection. 

Check your BS7671 for environmental protection standards.  

I'd also add that PVC formulations seem to be a bit of a variable. As we found with T&E and UV resistance, some brands do better than others and a given brand one year might differ from the same brand from 10 years earlier, even though they're all to the same nominal specification.

    - Andy.

I suspect that modern plastic insulated cable will be fine in practice, though not actually recommended for such use.

Consider the DNO network for example, what type of cables do they use for mains and for service cables in areas with a high water table ? Exactly the same as they use in less waterlogged areas, and such cables give very little trouble in practice, except when damaged during excavations.

Also this proposed cable is sized for voltage drop and run well below its current carrying capacity and therefore wont run significantly over ambient temperature. Most types of chemical or physical degradation are temperature related and proceed more slowly at low temperatures. I would be SLIGHTLY more concerned about a cable heavily loaded, in a swamp, in the tropics.

The fact that these cables are generally rated at 600/1000 volts gives a further safety margin as the operating voltage is a lot less than half that.

As regards actually installing the cable, be aware that cables in ducts laid on significant gradients tend to very slowly "creep" downwards until the uppermost connections are strained or pulled out. Leave a large loop at the top to allow for this.  Also allow a similar loop immediately below any joints. Try to get the cable in as few lengths as possible to minimise joints, jointing kits cost money, and joints tend to be a weak spot.

Thanks.  I cannot afford anything much more expensive than standard SWA cable.  I made preliminary enquiries about custom cables a couple of years ago but they were hugely expensive by comparison.   Can you recommend any specific cable, and somewhere that stocks it?

You must use a submersible specification of cable. 

I looked at this many years ago in the water industry.  After talking with Pirelli cables experts no PVC XPLE cable will withstand submerging in water, even intermittently for short periods. 

The sheath material is micro porous.  

I have seen with my own eyes PVC sheathed XPLE cables in sand and gravel quarries, when cut back to be remade.  They are damp, with water under the outer sheath and into the core bedding.  This was due to sitting in intermittent water levels when direct buried.  Water will track into the internal bedding and reduces the cables insulation properties. 

Carrying out periodic inspections of industrial installations had shown me.  Over time cables take on moisture through their sheathing, if they are not specified correctly for the environmental conditions.  

Good question! I'm still designing metalwork at the moment and haven't decided on cable protection yet.   The alternator is able to stand (brief) short-circuit conditions without risking demagnetisation.  There will be circuit breakers in the turbine hut for serious shorts, but a lot of the time I'm 150 miles away so I don't want them tripping out without good reason.  The control system will be measuring voltages and currents at each end of the cable (via fibre-optic link) and will be able to disconnect loads, for instance when there is not enough water to run all the radiators.  If it spots anything out-of-order it will be able to disconnect the cable (solid-state relay), divert the power to a dump load, close the spear valves and email me.

The issue of lightning protection is perhaps more tricky - I don't want lightning currents anywhere near the house.  The stream sensor cables run over a broad ridge about 400 yards above the cottage.  I'm having a weather station up there (3m pole, with lightning rod to protect the immediate vicinity) and there will be surge protectors at the cottage end but I'm not sure that's enough.  We don't get much lightning but I'd rather be safe. 

Hi, what protective devices might you expect to operate if there is a fault in your SWA?

you will regret not laying a duct and man holes, trust me on this one

Thank you.  The companies I have contacted wanted minimum orders of at least 6 km.  Do you know anyone prepared to sell more modest quantities?