Monday, June 15, 2015

An Introduction to the Tort of Nuisance – Part 1



….an interference or disturbance must be shown to be unreasonable in order to pursue an action in nuisance, which by default must means that there are some occasions when interferences or disturbances will be reasonable

Source: http://www.mylubbock.us/
I have recently written a number of articles which discuss the Tort of Negligence which tends to get a great deal of publicity with legal specialists offering their services on a no win no fee basis.  You will see television adverts, billboards, newspaper and magazine articles, unsolicited emails and sometimes cold calling from legal companies trying to convince us that we have a legitimate claim in negligence for one reason or another.  A further area of Tort law which is just as significant, but less well known is the Tort of Nuisance.

In the case of Walter v Selfe (1851) the definition of nuisance is defined as: ‘…..an inconvenience materially interfering with the ordinary comfort, physically, of human existence, not merely according to elegant or dainty modes of living, but according to plain and sober and simple notions among the English people’.  It is always interesting to read a judge’s decision and particularly the language that is used in ‘older cases’.  The vast majority of nuisance cases relate to an ‘unreasonable’ interference with the use and enjoyment of land or property.  What is also interesting is the fact that an interference or disturbance in nuisance must be shown to be unreasonable in order to pursue an action, which by default must means that there are some occasions when interferences or disturbances will be reasonable.  As an example let us consider a person who is working night shifts and therefore has to sleep during the day.  Does noise from a neighbouring property (during the day), constitute an unreasonable interference or disturbance?  It is unreasonable to expect the neighbour to be completely silent and an action in nuisance by the night worker is highly likely to fail.  On the other hand if the noise complained of can be proved to be excessive and persistent then the outcome could be very different.   The definition of what is considered as unreasonable interference is further clarified in the case of Carley v Willow Park Golf Course Ltd. (2002), Interference must be such as would not be tolerated by the ordinary occupier. No use of land is reasonable if it produces substantial discomfort to others, or materially damages their property’.

Source: http://metro.co.uk/
Examples of what may constitute nuisance are not limited to noise as per the example above, and can include things such as odour, lighting, waste, air quality, bonfires and so on……  Nuisance can be categorized as public nuisance, private nuisance and statutory nuisance and I will endeavour to explain the difference between each over the course or this and the next few articles.

Public Nuisance is defined as an unlawful act or omission which endangers or interferes with the lives, comfort, property or common rights of the public. As it is the general public that are affected, actions in public nuisance will mean that a number of people are affected (sometimes a considerable amount of people), not just an individual. Public nuisance is considered as a criminal action, where proceedings are brought by the Government who will typically seek an injunction to remedy the nuisance, not damages.  Sometimes however damages will accrue as a result of a successful injunction resulting in a defendant suffering financial consequences to rectify the impact of the nuisance. For example, a manufacturer who has polluted a river or stream may be served with an injunction preventing them from further pollution (the nuisance) and be fined for the costs of any clean up or re-mediation works.  Also, in some situations a criminal sentence may also be handed down by the courts.

There are a number of previous cases which provide examples of public nuisance including Benjamin v Storr (1874). For the purposes of his business, Storr kept horses and vans standing outside Benjamin’s coffee house throughout the day which caused an obstruction to the highway (a public nuisance). Benjamin complained that he had suffered special damage due to the vans and horses obstructing light, resulting in increased expense incurred for keeping gas lights burning throughout the day.  He further alleged that the smell of the horses was offensive and deterred customers from using the coffee house.  The court found in favour of the plaintiff (Benjamin) and demonstrates that a defendant can be found guilty of public nuisance (the obstruction of the highway) and also be faced with an action in tort for the loss and disruption resulting from the nuisance. 

Other examples of cases of public nuisance to look at include Tarry v Ashton (1876), Attorney General v PYA Quarries Ltd (1957), Dollman v Hillman (1974) and Tate & Lyle Industries v Greater London Council 1983), however, to conclude this article I would like to finish with a case that always generates some discussion with my students, the outcome of which, at first glance does seem a little unfair;

Wandsworth London Borough Council v Railtrack plc (2001), The defendant (Railtrack) owned a bridge which attracted large numbers of pigeons.  Interestingly, although the owner was not at fault, they were held liable to contribute to the local authority's costs of the bridge to deal with the nuisance.  As stated above, at first glance it does seem unfair that the defendant could be held responsible for what is effectively ‘the forces of nature’.  The justification from the courts for their decision was that the number of pigeons were enough to constitute a public nuisance, and the defendants became liable where they had not remedied the nuisance after a reasonable time. The judge went onto state; ‘the fact that the pigeons were wild, and that the nuisance was one of inconvenience rather than the causing of actual damage were not relevant. The local authority's request was reasonable’.

The above introduces the tort of nuisance and provides some case examples to demonstrate the point.  As with all areas of law, further reading will help to deepen understanding where I have provided some other cases for further reading and research. In my next article I will consider private nuisance.

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Information/opinions posted on this site are the personal views of the author and should not be relied upon by any person or any third party without first seeking further professional advice. Also, please scroll down and read the copyright notice at the end of the blog.

Wednesday, June 10, 2015

Law of Land & Property - Part 2 - Fixture or Chattel?



The definition of a fixture is sometimes subject to heated debate, however in general terms the law considers a fixture as something that is permanently fixed to the property/land and therefore is deemed to form part of it. 

Source: http://www.ecoinstaller.net/
Anyone who has bought and sold property over recent years will be very familiar with the pack of information that they receive from their legal advisors which details or schedules out all of the fixtures and fittings that will form part of the property/land.  This is important because there were often conflicts between a purchaser and a seller in respect of what formed part of the property/land and what did not.  It is therefore interesting to see what the law says about what is a fixture (and therefore forms part of the property/land) and what is a chattel (which does not).

The definition of a fixture is sometimes subject to heated debate, however in general terms the law considers a fixture as something that is permanently fixed to the property/land and therefore is deemed to form part of it.  Fixtures will therefore include things like buildings together with anything that is permanently attached to it.  If something is secured in place by anything other than its own weight, it is highly likely to be considered as a fixture.  A chattel on the other hand and hardly surprisingly is the exact opposite, being something that is easily removed and therefore cannot be considered as permanent. Chattels are therefore generally considered as temporary and easy to move (although there a number of exceptions to this, which will be considered later).  Before proceeding it is worth clarifying that the law considers ‘tenant fixtures’ in a very different way to other types of fixtures.  For the purposes of this article I will not be discussing tenant fixtures, which is a topic I will save for a future article.

Property is usually bought and sold under a contract which therefore allows the buyer and seller to come to whatever agreement they want in respect of fixtures and chattels.  Where this agreement is lacking, whether by ignorance or wilfulness and a dispute ensues the parties will sometime go court in order to resolve the dispute. Under the doctrine of judicial precedent the courts in the UK are bound by decisions made in similar previous cases so it is worth looking at some previous cases to help us to understand how the courts decide what is a fixture and what is a chattel.


Source: http://www.theglasgowstory.com/
The case of Holland v Hodgson (1872) is commonly referred to where the question in respect of fixtures and chattels.  The case related to whether some factory machinery (looms) were a fixture and formed part of a factory or if they indeed were chattels.  As stated above the law relating to tenant fixtures has evolved since this case however the test used for determining whether something is a fixture of a chattel is still relevant.  In deciding whether something is a fixture or a chattel the Judge identified two tests.  Firstly, the degree on annexation (how and the extent to which something is fixed) and the purpose of the annexation (the reason for fixing the item). In explaining the test the Judge went on to say that ‘articles that are only attached to the land by their weight are not usually considered to be part of the land, unless they were actually intended to form part of the land’. In order to demonstrate this point the judge gave an example of a dry stone wall, stating that ‘a pile of stones, randomly stacked in the middle of a field, would not be part of the land but when they have been arranged, packed, and formed into a stone wall, then they clearly are intended to be part of the land’. In any case it is the responsibility of the person/party claiming that an object forms part of the land to prove it.

In the case of Berkley v Poulett (1976) a dispute arose relating to whether certain items sold at auction were deemed to be fixtures and therefore formed part of the property/land or whether they were chattels.  The items in question were some pictures fitted into panelling in a wall and in the garden, a heavy marble statue resting on plinth and a sundial.  The Court of Appeal considered the test used in Holland v Hodgson and concluded that the pictures, although fixed to the wall were chattels as ‘they were put on the walls to be enjoyed as pictures, rather than with the intention of making them part of the land’. The statue was also not attached to the land, but was placed on a plinth that was attached to the land. The Court concluded that the plinth formed part of the land, but the statue did not, because there was no evidence that the statue was designed as part of an ‘architectural scheme’. The sundial was also determined to be a chattel, because it had been detached from its pedestal many years earlier.

If we contrast the case of Berkley v Poulett with the case of D’Eyncourt v Gregory (1866) we can see how the courts arrived at a different decision for similar items. In this case a sundial was also held to be a chattel rather than a fixture, however, in the garden, statues, figures, vases, and stone garden seats that were part of the architectural design of the grounds were deemed to be fixtures, whether or not they were attached to the ground.

In most property transactions the question of whether something is a fixture or a chattel is relatively straightforward however in instances where this is bought into question it is worth being aware that there is precedent for determining this and resolving disputes.  As stated above, in a future article I will tackle the issue of ‘tenant fixtures’, where we will find that the law differs from that stated above.

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Information/opinions posted on this site are the personal views of the author and should not be relied upon by any person or any third party without first seeking further professional advice. Also, please scroll down and read the copyright notice at the end of the blog.

Thursday, April 23, 2015

Flat Roofs - Part 2 - Built up Felt - Problems to look for



A well constructed and properly maintained flat roof should remain in serviceable use for approximately 15 – 20 years. Life expectancy can vary depending on a number of different factors however if not regularly inspected and maintained there are numerous problems that can occur

In my last article I provided a brief summary of typical UK flat roof construction together with an explanation of different roof coverings.  As a result of the design/form of a flat roof they are often more vulnerable than pitched (angled) roofs to problems due to their reduced ability to discharge rain and other surface water adequately. A well constructed and properly maintained flat roof should remain in serviceable use for approximately 15 – 20 years. Life expectancy can vary depending on a number of different factors however if not regularly inspected and maintained there are numerous problems that can occur.  Below I will discuss a number of typical problems that can be found when inspecting a flat roof and how these can be identified.

You do not need to be a surveyor or have any detailed knowledge of property or construction to realise that there are clearly issues with the flat roof shown in the images below.  Some of these images show us the extent that people will sometimes go to carry out temporary ‘repairs’, when it is clear that there is a much bigger problem. 

Source: http://grandvalleyservices.ca/
Source: http://www.diychatroom.com/
Source: http://www.showalterroofing.com/
Built up Felt Flat Roofs

Water Ponding – Water ponding can occur on a flat roof for a number of different reasons, for example the roof was not designed or constructed correctly in the first place and is not allowing water into guttering our outlets, there could be impact damage (possible people walking across) or heavy loadings such as plant or materials that have resulted in ‘depressions’ in the roof, outlets or guttering could be blocked etc.  In any event prolonged standing water on a flat roof can result in degradation of felt, stress and failure of joints, increased risk of condensation (as the internal roof surface temperature is reduced), and the build-up of moss and lichen.  Standing water will also freeze in sub-zero temperatures, further increasing the possibility of condensation as well as becoming a health & safety risk if there is a need to gain access to the roof at that time.

Source: Google Images
Although not the nicest of conditions, the best time to inspect a flat roof is in poor weather conditions particularly whilst it is raining.  This will highlight many of the problems with design, workmanship and general deterioration. Even in the warmer months when it may not have rained for a long time a surveyor will still look for visual clues that may indicate water ponding, such as a build-up of moss and debris, general staining of the roof covering or damaged coverings etc.  The image to the left provides an example of this.

Simple regular maintenance such as clearing gutters and outlets will help to reduce water ponding however this is something that is often overlooked by many property owners/occupiers.  This is likely to be because many flat roofs are out of sight (and therefore out of mind!) and unless the roof starts to exhibit problems many will choose to ignore it. Water ponding problems as a result of poor design or poor workmanship are often more problematic to deal with and consequently more expensive.  Again, many people will choose to live with these problems until of course the roof starts leaking and causing consequential damage to other parts of a building.

Source: http://thermalimages.ca/
Blistering of Felt – A fairly common issue identified by surveyors when inspecting a built up felt flat roof is blistering of the felt roof surface.  This occurs where water vapour pressure becomes trapped underneath the roof covering between layers of felt that have been inadequately bonded.  Any trapped water or moisture will evaporate and expand.  As it is trapped and cannot escape it will force the felt to form a blister. The source of any moisture will need to be addressed before any repairs are undertaken otherwise the problem will re-occur.  Blistering sometimes occurs when the felt covering is laid onto a substrate that is not fully dry, possible when roofing works are being undertaken either after or whilst it is raining.

Source: http://www.newcastlene1.co.uk/
Cracks and Tears - Cracks and tears to felt roof coverings can be caused by thermal or moisture movement, saturation of insulation or sagging of the roof deck. Cracks and tears can also occur when there is thermal or moisture movement between the roof substrate and membrane. In most cases the impact of thermal movement is not visible to  the naked eye, however even though we cannot see it, building materials expand and contract by varying amounts when they heat up and cool down. This is due to their differing coefficients of thermal movement. Materials expand because an increase in temperature leads to greater thermal vibration of the atoms in a material, and hence to an increase in the average separation distance of adjacent atoms. Due to the fact that roofs in the UK can experience a significant temperature difference due to the varied climate, the roofing felt material will be reacting to these ever changing conditions by expanding and contracting continually.  This can sometimes result in crack or tears appearing in the felt surface which can often be repaired by cutting back the existing felt and allowing the area to dry before applying a new layer of felt with a suitable overlap between the new and existing material.

Other issues such as de-bonding at up-stands can also be encountered by a surveyor during an inspection of a built up felt flat roof as well as numerous other problems that occur as a result of poor workmanship.  In my next article I will discuss problems associated with mastic asphalt flat roofs, where some similar issues to those described above will be explored together with some other problems that may occur as a result of using a different material.

Please feel free to share this article and other articles on this site with friends, family and colleagues who you think would be interested

Information/opinions posted on this site are the personal views of the author and should not be relied upon by any person or any third party without first seeking further professional advice. Also, please scroll down and read the copyright notice at the end of the blog.

Sunday, March 29, 2015

Flat Roofs – Part 1 – Different Types



I often find that the choice of flat roof construction is usually one of convenience and cost, however, this really is a false economy as the costs of maintenance, repairs and replacement of a flat roof, from a life cycle cost perspective, usually work out more expensive than constructing a pitched roof in the first place

Source: http://www.angleseyroofing.co.uk/gallery/
Flat roofs are commonplace throughout many parts of the World and are regularly used throughout the UK.  One of the primary functions of any roof is to keep the internal environment dry and it is essential that water is prevented from entering the internal environment.  Whereas pitched roofs readily allow rainwater to drain into gutters and downpipes due to their design, flat roofs tend to be more problematic particularly if not designed and constructed appropriately.  The use of flat roof construction in warmer parts of the World which experience limited rainfall is less problematic than in a varied climate such as that encountered in the UK, where the potential for extensive prolonged rainfall is highly likely.  I often find that the choice of flat roof construction is usually one of convenience and cost, however, this really is a false economy as the costs of maintenance, repairs and replacement of a flat roof, from a life cycle cost perspective, usually work out more expensive than constructing a pitched roof in the first place. The problem we seem to have in the UK is that property owners and occupiers do not think long term and most will not reap the benefits of longer term investment because people tend to move on a regular basis.

I am sure that many Building Surveyors (and others who inspect property on a regular basis) will agree that flat roofs are something that warrant a particularly close inspection and is an element where regular problems are identified.  In next week’s article I will focus on some typical defects/problems to look for when inspecting flat roofs however for the remainder of this article I want to focus on different types of flat roofs typically found in the UK.  When we refer to different types of flat roofs we can basically consider these in terms of both construction and coverings.  

Figure 1 - Source: Source: http://www.diynot.com/
A flat roof is defined in BS 6229 as having a pitch (gradient) of 10 degrees or less.  Therefore a flat roof is not actually completely flat and should be constructed with a subtle gradient which will allow any rainwater to find its way to gutters or outlets.  Even a small gradient of a few degrees will allow rainwater to become mobile by gravity, although clearly the greater the gradient the better.  There are a number of ways of achieving this subtle gradient on a flat roof such as the use of timber firing strips onto of joists (as seen in figure 1), however I have stumbled upon many examples when these have been incorrectly installed and in numerous cases completely omitted. In fact the vast majority of problems I encounter with flat roofs were a result of either poor workmanship during installation or lack of general maintenance.

In terms of flat roof construction there are two common types used in the UK, cold roof construction and warm roof construction (I will discuss flat roof coverings a little later). Buildingregs4plans.co.uk (online) provide a concise explanation of warm and cold roof construction which is used below;
Warm roof construction - In a warm deck roof the insulation is positioned above the structural deck and no ventilation is required. Throughout the course of the year the roof deck and all below it is kept at a temperature close to that of the inside of the building, therefore the roof structure is protected from extremes of hot and cold, lessening the potential for damage caused by thermal movement.
Figure 2 - Source: Source: http://www.buildingregs4plans.co.uk/
A warm deck also provides added protection from the dangers of condensation as the structure is kept warm, at a temperature above dewpoint, by the insulation above it. Therefore water vapour which enters the roof structure from the room below will not have a cold surface on which to condense. NHBC recommend that this type of roof be considered as the standard form of construction. (Figure 2)
There are two forms of warm deck roof, sandwich and inverted.  The sandwich warm deck roof is the most common type of flat roof. The insulation is placed below the waterproof covering and is either mechanically fixed or bitumen bonded on to the top of the deck.
Figure 3 - Source: Source: Chudley R. & Greeno R (2005), Building Construction   Handbook.  
The insulation boards in an inverted warm deck are laid over the structural deck and the waterproof covering. The insulation is secured by a layer of ballast or paving slabs to prevent wind uplift. The waterproofing membrane has the added protection of the insulation from foot traffic and degradation caused by exposure to solar radiation. However, it may be a more difficult to locate defects in the membrane (insert image 4)
Cold roof construction - In a cold roof the thermal insulation is laid between the joists below the structural deck. As the insulation is not required to take any loads, quilts and other loose fill materials can be used as well as rigid insulation. Because the structural elements of a cold roof are not protected by from the heat of the sun by a layer of insulation they are liable to suffer the damaging effects of thermal movement. Ventilation is required above the insulation in a cold roof to prevent the build-up of moisture vapour in the roof void. (Figure 4).
Figure 4 - Source: Source: http://www.buildingregs4plans.co.uk/
In addition to the construction types described above, flat roofs are also often referred to by the type of covering that is used.  In the UK, built up felt, mastic asphalt and single ply are the common types of coverings installed.  Some of the typical problems with flat roofs that I will discuss next week are a direct result of the type of covering selected.  It is therefore essential that an appropriate covering is considered during design and installation.
Built up Felt Roofing - involves the installation layers of tar impregnated roofing felt which are rolled out onto a roof.  Each layer overlaps the previous layer and in between the deck material and each layer of felt a layer of hot tar is applied over the surface.
Mastic Asphalt Roofing - premiermasticasphalt.co.uk (Online) define mastic asphalt as; comprises suitably graded aggregates bound together with an asphaltic cement (primarily refined bitumens) to produce a dense voidless material.  It cannot be compacted and is spread rather than rolled. As mastic asphalt is installed as a ‘hot liquid’, when it cures (cools down) it provides a continuous impervious membrane with no joints making it extremely waterproof.
Single Ply Membranes - everybodyneedsaroof.com (online) define Single-ply membranes as; factory-manufactured sheet membranes. which are generally catagorised as thermoplastic or thermoset. Thermoplastic materials can be repeatedly softened when heated and hardened when cooled. Thermoset materials solidify, or "set," irreversibly after heating. Single ply membranes commonly are referred to by their chemical acronyms, such as ethylene propylene diene terpolymer (EPDM). Single-ply membranes can be installed fully adhered, mechanically attached or held down with ballast. Most single-ply roof systems do not receive surfacings. 
The information above provides a brief introduction into UK flat roof construction and flat roof coverings and should be used as a reference point for the problems/defects associated with flat roofs that will be discussed next week.
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Information/opinions posted on this site are the personal views of the author and should not be relied upon by any person or any third party without first seeking further professional advice. Also, please scroll down and read the copyright notice at the end of the blog.

Sunday, March 15, 2015

Rising Damp – A Salty Problem - An update for 2015



Guest Article - Joe Malone - Principal: Malone Associates Ltd

My academic research into rising damp led me to the conclusion that most text books are wrong in their description of rising damp since they state that it is caused by capillary action.

Following on from my articles written in 2013 I thought it was time to provide a further update on one problem in particular relating to the diagnosis of rising damp. In my update for 2013 I wrote that, ‘you need to confirm that three conditions are present to definitively confirm a case of rising damp.’ These are:

1.  You must have a rising damp moisture profile. That is a profile that is wetter at the wall base but gradually decreases with height to a theoretical maximum height of circa 1.5m.

2.  You must prove that moisture is present at depth in the masonry and it is not enough to take surface readings from the plasterwork. You will need deep wall probes or a calcium carbide (speedy) meter to confirm this on site.

3.  You will need to confirm that nitrates are present in the damp apex of your moisture profile. This will involve doing on site analysis or sending a sample off to the labs. You might have noted that I've ignored chloride salts because these can be present in tap water or building materials. A positive test for nitrates confirms that the moisture has leached up from the soil.

My academic research into rising damp led me to the conclusion that most text books are wrong in their description of rising damp since they state that it is caused by capillary action. Since we know that the major moisture pathway for rising damp is the mortar perps and since we also know that the moisture transfer mechanism in mortar is diffusion then clearly the generally accepted cause by capillary action is incorrect. It is probably worth reprinting my own updated description at this point…

‘Rising damp is an upward migration of groundwater in masonry walls. It will act in combination on the masonry units and their separating mortar joints or it will act primarily on the mortar joints. The moisture transfer mechanism in masonry is capillary action whilst the moisture transfer mechanism within mortar is diffusion. The major moisture pathway for rising damp is the mortar perps so it can be stated that there are dual moisture transfer mechanisms for rising damp, diffusion and capillary action’

The purpose of this article is to right another wrong with regard to the academically accepted principle for salts analysis. If you note again the requirement to prove the third condition, the need to prove that Nitrates are present in the damp apex of your moisture profile. This requirement stems from the fact that Nitrates are present in the soil so if moisture is leached up from the soil then it stands to reason that the moisture contains Nitrates. Personally I have always used the chloride test very little since it has extremely limited value in the course of most damp investigations and it is a test that has always been of zero value for the diagnosis of rising damp, simply because we know that chlorides are present in tap water so a positive test for chlorides does not help us determine the source of moisture.

The Nitrates Anomaly

When testing for Nitrates we do so on the assumption  that Nitrates are not present in tap water and therefore a positive result moves us to conclude that moisture in the masonry has been drawn from the ground. I’m only aware of one salts analysis kit sold by Protimeter and indeed this is the one I use. Interestingly, Protimeter do not make their own salts analysis tablets and these are sourced from a company called Palintest.



Figure 1. Protimeter salts analysis kit.                   Source: surveyexpress.co.uk


However, we know that Nitrates can be present at very low levels. World Health Organisation guidelines stipulate a guideline for 50mg/l or less. So this raises a key question… Do we know that the tablets supplied by Palintest for the Protimeter salts analysis kit are discriminatory enough to only give a positive test result when  Nitrates levels are above and below 50 milligrams per litre? If not, then the source of moisture cannot be determined using this test since a positive result may also be obtained when the source of the wall base damp is a leaking incoming water main containing Nitrates at low levels of 50mg/l or less? If you have used the Protimeter kit you will know that a positive test for Nitrates turns the water cherry red and there is no colour chart to match against your sample to help determine the approximate quantity of Nitrates present. The practice of matching the sample colour obtained against a colour chart is a principle that may be familiar to a lot of freshwater fish enthusiasts since they have to regularly check Nitrate levels in their fish tanks to ensure levels do not become so high as to become dangerous for their fish.

Figure 2. Colour card familiar to freshwater fish keepers. Source: www.cichlid-forum.com
The Protimeter test for Nitrates appears to be less discriminatory than the test used by freshwater fish enthusiasts since it will turn cherry red and give a simple positive result with no clue as to the level of Nitrates present.


Figure 3. A positive nitrates test using Protimeter kit with Palintest tablets
I was uncomfortable with this and decided to contact the technical team at Palintest to ask them how discriminatory the Nitrates test was? They were incredibly helpful in providing the following response…

‘Your question is a good one.  I'm afraid you won't ever be able to be certain that the nitrates don't come from the tap water.  The test doesn't know the source of the water, it'll just react to any nitrates present.

You're also correct that the limit for nitrates is 50mg/l.

What I would recommend is to test the tap water on the site to test the 'baseline' nitrate level.  If your 'real test' is higher than this, you can be sure that some nitrate is coming from the rising damp.  If it’s less or equal to the baseline though, you aren't going to be able to tell.

You could expand your test protocol to include other minerals (sulphate, chloride etc) which would be able to give you some more confidence that the water is from the ground as opposed to the tap but you would need more equipment and would be a bit more complex than your current method.’

Before I even asked the question of Palintest I was already experimenting with a Nitrates test kit manufactured by Salifert. I chose this particular kit since I’d read on most forums that this was generally thought to be the most accurate kit. The kit is supplied with a colour match chart and is significantly cheaper than the Protimeter test kit.


Figure 4. Alternative Nitrates Test Kit  Source: Authors own

In fact I had been doing precisely what was recommended by Palintest… I was and am testing the tap water to establish a baseline Nitrates level according to my Salifert colour chart before I take a sample from the wall. The advice given by Palintest is good but of course ignores the issue relating to the absence of a colour chart in the Protimeter kit. It would seem that I was being advised to use another kit since the Protimeter kit can not discriminate and will simply, ‘just react to Nitrates present.’

In figure 5 you can see where I have obtained a positive test result for Nitrates at a level of around 25mg/l but this was for a tap water sample.


Figure 5. Positive nitrates test result in tap water.   Source: Authors Own
My trials and research with this alternative test method are still ongoing since rising damp is incredibly rare and to date I have only obtained negative results from walls and positive results from tap water.  I will need substantially more time to evaluate the effectiveness of my alternative Nitrates test but what is clear is that an alternative test is needed or some refinement is needed in the Nitrates test kit currently used by most building surveyors or damp investigators.  

Joe Malone - Principal: Malone Associates Ltd

First Published: 16/2/15 at   www.buildingdefectanalysis.co.uk

Please feel free to share this article and other articles on this site with friends, family and colleagues who you think would be interested

Information/opinions posted on this site are the personal views of the author and should not be relied upon by any person or any third party without first seeking further professional advice. Also, please scroll down and read the copyright notice at the end of the blog.