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England and Wales High Court (Technology and Construction Court) Decisions |
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You are here: BAILII >> Databases >> England and Wales High Court (Technology and Construction Court) Decisions >> Thames Water Utilities Ltd. v London Regional Transport & Anor [2004] EWHC 2021 (TCC) (18 August 2004) URL: http://www.bailii.org/ew/cases/EWHC/TCC/2004/2021.html Cite as: [2004] EWHC 2021 (TCC) |
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TECHNOLOGY & CONSTRUCTION COURT
Strand, London, WC2A 2LL |
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B e f o r e :
____________________
| THAMES WATER UTILITIES LIMITED |
Claimant |
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| - and - |
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| LONDON REGIONAL TRANSPORT and LONDON UNDERGROUND LIMITED |
Defendants |
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Robert Moxon-Browne QC and Tim Lord (instructed by Watmores) for the Defendants
____________________
Crown Copyright ©
His Honour Judge David Wilcox:
"It is in controvertible that the main at St. Thomas Street did fail. It is therefore also self-evident that the applied stress levels must have exceeded the strength of the material. The stress levels from normal design conditions, including internal water pressure, external earth pressure and super imposed loading are low, of the order of 25MPa (equivalent to a strain of approximately 300 microstrain). The difference between the applied design stresses and those necessary to cause the observed failure must have come from additional extraneous loading".
"…make compensation to …..[TW] –
a) for any damage caused to any apparatus…; and
b) ..any other expenses, loss, damages, penalty or costs incurred by the undertaker;
by reason or in consequence of the execution, maintenance, user or failure of any such works or otherwise by reason or in consequence of the exercise by the Board of the powers of this Act)".
"It would seem obvious in principle that a pursuer or plaintiff must prove not only negligence or breach of duty, but also that such fault caused or materially contributed to his injury, and there is ample authority for that proposition both in Scotland and in England. I can find no reason nor authority for the rule being different where there is breach of a statutory duty… in my judgment, the (claimant) must in all cases prove his case by the ordinary standards of proof in civil actions: he must make it appear at least that on a balance of probabilities the breach of duty caused or materially contributed to his injury".
"The first step in establishing causation is to eliminate irrelevant causes, and this is the purpose of the "but for" test. The courts are concerned, not to identify all of the possible causes of a particular incident, but with the effective cause of the resulting damage in order to assign responsibility for that damage. The "but for" test asks: would the damage of which the claimant complains have occurred "but for" the negligence (or other wrongdoing) of the defendant? Or to put it more accurately, can the claimant adduce evidence to show that it is more likely than not, more than 50 per cent probable, that "but for" the defendant's wrongdoing the relevant damage would not have occurred. In other words, if the damage would have occurred in any event the defendant's conduct is not a "but for" cause".
"It is worth bearing in mind that the "but for" test functions as an exclusionary test, i.e. its purpose is to exclude from consideration irrelevant causes. The fact that the defendant's conduct is found to be a cause, applying the "but for" test, is not conclusive as to whether he should be held responsible in law since the function of the causal enquiry in law is to determine which causes have significance for the purpose of attributing legal responsibility. It is sometimes said that the law seeks the causa causans (effective factor) rather than the causa sine qua non (factor(s) without which damage could not have occurred)."
In Case v Morane Ltd [2001] ICR 316, [2001] IRLR 166, Mance LJ at para. 23 endorsed the view that, in circumstances where there are several possible causes contributing to the claimant's loss, the determination of a causal nexus that links the conduct of the defendant to the said loss, and which is prerequisite to the defendant's liability, should focus on the notions such as "predominant", "real" or "effective" cause rather than on the "but for" causal test.
"These two findings of the judge undoubtedly satisfy a "but for" test of causation. But so too, of course, would an infinity of other facts. The real test however, is, in my judgment, much more pragmatic and based simply on common sense rather than philosophical or metaphysical considerations. It is whether the negligence was an effective cause of the loss. That test has been repeated many times in our courts."
"It is not necessary to identify the source of those expressions, but they include, "an effective cause", "present in the mind and influenced"; "contributory"; "an inducing cause"; "operated upon the mind"; "relied upon, in a broad or narrow sense"; "gives weight to his decision"; "motivates him"; "encourages him"; "is one of the factors".
Apart from the philosophical and metaphysical considerations, to which my Lord has referred, it is not helpful to consider any linguistic distinctions between these expressions. In the context of this case they would sit comfortably in a judicial thesaurus. The expression "but for" does not, in my view, add anything and I am sceptical that except in a general sense it has much value as a test for causation. To paraphrase, which I do gratefully, the words of McHugh JA in Alexander v Cambridge Credit Corporation Ltd (1987) 9 NSWLR 310 at p 359 "the common law champions the common sense notion of causation". It is trite to say that causation is essentially a question of fact in each case".
"The common law tradition is that what was the cause of a particular occurrence is a question of fact which 'must be determined by applying common sense to the facts of each particular case', in the words of Lord Reid: Stapley v Gypsum Mines Ltd. [1953] AC 663, 681… It is beyond question that in many situations the question whether Y is a consequence of X is a question of fact. And, prior to the introduction of the legislation providing for apportionment of liability, the need to identify what was the 'effective cause' of the relevant damage reinforced the notion that a question of causation was one of fact and, as such, to be resolved by the application of common sense. Commentators subdivide the issue of causation in a given case into two questions: the question of causation in fact – to be determined by the application of the 'but for' test – and the further question whether a defendant is in law responsible for damage which his or her negligence has played some part in producing …… It is said that, in determining this second question, considerations of policy have a prominent part to play, as do accepted value judgments ….. However, this approach to the issue of causation (a) places rather too much weight on the 'but for' test to the exclusion of the 'common sense' approach which the common law has always favoured; and (b) implies, or seems to imply, that value judgment has, or should have, no part to play in resolving causation as an issue of fact. As Dixon CJ Fullagar and Kitto JJ remarked in Fitzgerald v Penn (1954) 91 C.L.R. 268, 277 'it is all ultimately a matter of common sense' and 'in truth the conception in question (i.e. causation) is not susceptible of reduction to a satisfactory formula'".
"accept the 'but for' (causa sine qua non) test ever was or now should become the exclusive test of causation in negligence cases",
and then referred to the passage from the Australian decision at 516:
"The 'but for' test gives rise to a well known difficulty in cases where there are two or more acts or events which would each be sufficient to bring about the plaintiff's injury. The application of the test 'gives the result, contrary to common sense, that neither is a cause': Winfield & Jolowicz on Tort, 13th ed (1989), p 134. In truth, the application of the test proves to be either inadequate or troublesome in various situations in which there are multiple acts or events leading to the plaintiff's injury: see e g Chapman v Hearse, Baker v Willoughby [1970] AC 467; McGhee v National Coal Board; M'Kew v Holland & Hannen & Cubitts (Scotland) Ltd 1970 SC(HL) 20 (to which I shall shortly refer in some detail). The cases demonstrate the lesson of experience, namely, that the test, applied as an exclusive criterion of causation, yields unacceptable results and that the results which it yields must be tempered by the making of value judgments and the infusion of policy considerations."
"The essential question underlying the appeals may be accurately expressed in this way. If (1) C was employed at different times and for differing periods by both A and B, and (2) A and B were both subject to a duty to take reasonable care or to take all practicable measures to prevent C inhaling asbestos dust because of the known risk that asbestos dust (if inhaled) might cause a mesothelioma, and (3) both A and B were in breach of that duty in relation to C during the periods of C's employment by each of them with the result that during both periods C inhaled excessive quantities of asbestos dust, and (4) C is found to be suffering from a mesothelioma, and (5) any cause of C's mesothelioma other than the inhalation of asbestos dust at work can be effectively discounted, but (6) C cannot (because of the current limits of human science) prove, on the balance of probabilities, that his mesothelioma was the result of his inhaling asbestos dust during his employment by A or during his employment by B or during his employment by A and B taken together, is C entitled to recover damages against either A or B or against both A and B? To this question (not formulated in these terms) the Court of Appeal (Brooke, Latham and Kay LJJ), in a reserved judgment of the court reported at [2002] 1 WLR 1052, gave a negative answer. It did so because applying the conventional 'but for' test of tortious liability, it could not be held that C had proved against A that this mesothelioma would probably not have occurred but for the breach of duty by A, nor against B that his mesothelioma would probably not have occurred but for the breach of duty by B, nor against A and B that his mesothelioma would probably not have occurred but for the breach of duty by both A and B together. So C failed against both A and B.
The crucial issue on appeal is whether, in the special circumstances of such a case, principle, authority or policy requires or justifies a modified approach to proof of causation."
"To the question posed in paragraph 2 of this opinion I would answer that where conditions (1)–(6) are satisfied C is entitled to recover against both A and B. That conclusion is in my opinion consistent with principle, and also with authority (properly understood). Where those conditions are satisfied, it seems to me just and in accordance with common sense to treat the conduct of A and B in exposing C to a risk to which he should not have been exposed as making a material contribution to the contracting by C of a condition against which it was the duty of A and B to protect him. I consider that this conclusion is fortified by the wider jurisprudence reviewed above. Policy considerations weigh in favour of such a conclusion. It is a conclusion which follows even if either A or B is not before the court. It was not suggested in argument that C's entitlement against either A or B should be for any sum less than the full compensation to which C is entitled, although A and B could of course seek contribution against each other or any other employer liable in respect of the same damage in the ordinary way. No argument on apportionment was addressed to the House. I would in conclusion emphasise that my opinion is directed to cases in which each of the conditions specified in (1)-(6) of paragraph 2 above is satisfied and to no other case."
"A mountaineer about to undertake a difficult climb is concerned about the fitness of his knee. He goes to a doctor who negligently makes a superficial examination and pronounces the knee fit. The climber goes on the expedition, which he would not have undertaken if the doctor had told him the true state of his knee. He suffers an injury which is an entirely foreseeable consequence of mountaineering but has nothing to do with his knee.
On the Court of appeal's principle, the doctor is responsible for the injury suffered by the mountaineer because it is damage, which would not have occurred if he had been given correct information about his knee. He would not have gone on the expedition and would have suffered no injury. On what I have suggested is the more usual principle, the doctor is not liable. The injury has not been caused by the doctor's bad advice because it would have occurred even if the advice had been correct.
(…) Your Lordships might, I would suggest, think that there was something wrong with a principle, which, in the example, which I have given, produced the result that the doctor was liable. What is the reason for this feeling? I think that the Court of Appeal's principle offends common sense because it makes the doctor responsible for consequences which, though in general terms foreseeable, do not appear to have a sufficient causal connection with the subject matter of the duty. The doctor was asked for information on only one of the considerations which might affect the safety of the mountaineer on the expedition. There seems no reason of policy which requires that the negligence of the doctor should require the transfer to him of all the foreseeable risks of the expedition."
The 'but for' test is a necessary but not determinative test of causation. It may serve as an exclusionary filter, or to identify viable causes.
Even where the claimant satisfies the 'but for' test, the court has an obligation to evaluate that cause in terms of its materiality.
The court approaches the task of evaluation in a 'common sense' way informed and guided by reference to the scope of the duty owed.
There are no 'exceptional' or 'policy' grounds that would warrant the relaxation of the normal rules as to causation.
SUMMARY OF TW'S CASE
"I was asked to provide the maximum allowable settlement and change of slope to be tolerated by the 30 inch main and other mains. The amount of strain that can be accommodated within a cast iron pipe before failure is microscopic. Any change of slope can only be sustained if that movement is successfully transferred to a joint. Typical joints on cast iron mains are run lead. They are semi-flexible only on account of the yielding of the lead by cold flow under load. Manufacturers tolerances are intended for accommodating variations during laying. Any subsequent rotary movement will, if continued, shear the iron, splitting and rupturing the pipe. Any rotation of the pipe joint is therefore undesirable."
LOCAL GEOLOGY AND GROUND MAKE-UP AT POINT OF BURST
"A typical sequence in the area assessed by plotting two sections of the British Geological Survey boreholes in the area and the burst point and extracting levels from other nearby boreholes was found as follows:
Main Ground. Ground level to 0m AOD
Alluvium present in pockets, up to two metres thick
Terrace Gravel +1m AOD to +6m AOD
London Clay –6m AOD to –26 AOD"
"The made ground produced by previous building activity and land use in the area can include voids, and the following: the remains of wooden piles or of cellars or wells; organic material such as organic clays, peat and decomposed timber; night soil, the infill to mediaeval pits; imported chalk fill, used as back fill; mixtures of sandy clay or clay sand with brick, mortar and tile; re-worked very soft and very compressible alluvial clays; crushed building materials, such as brick, concrete and flint; old brick foundations and cellar walls. Thus the made ground can vary greatly, both spatially and in terms of its compressibility."
"The presence of significant thicknesses of clay Made Ground have been found close to the area of the failure."
"….These included the construction of a 4.2 metre thick mass concrete underpinning raft beneath the British Telecommunication Building in London Bridge Street; the drilling of holes to allow the installation of tube-a-manchette pipes from the Long Subway Tunnel that ran beneath London Bridge Street; excavation of a compensational grouting shaft; conditioning grouting, prior to tunnel excavation; compensation grouting, before, during and after tunnel excavation; back-filling of the CSLR pedestrian access tunnel; diaphragm walling for the East Vent Shaft; sinking of caissons for the lower part of the East Vent Shaft; excavation of a single phase shotcrete-lined East Vent adit; excavation of the East bound and West bound platform pilot tunnels and the concourse tunnel using sprayed concrete liming; subsequent enlargement of the platform of concourse tunnels to their four sections; installation and grouting as spheroidal graphite iron (SGI) bolted tunnel lining segments and the grouting de-watering and pumping of water from sumps during the construction of the works."
WAS THERE IN FACT ANY SIGNIFICANT DIFFERENTIAL SETTLEMENT AT THE POINT OF BURST?
"The Contractor shall immediately notify the Engineer should the results of monitoring indicate any of the following:
a) settlement of 5mm or more between consecutive readings;
b) angular distortion in excess of 1/2500;
c) total settlement of any part of a building or structure or surface in excess of 20mm…."
"Turning now to the document supplied with your letter, the clauses therein are clearly a matter for agreement between JLEP and its contractors. Thames Water will hold London Underground Ltd responsible for any damage to or failure of our water mains and apparatus from JLEP project however caused".
"I was asked to provide maximum allowable settlements and change of slope to be tolerated by the 30 inch main and other mains. The amount of strain that can be accommodated within the cast iron pipe before failure is microscopic. Any change of slope can only be sustained if that movement is successfully transferred to a joint. Typical joints on cast iron mains are run lead. They are semi-flexible only on account of the yielding of the lead by cold flow under load. Manufacturers tolerances are intended to accommodating variations during laying. Any subsequent rotary movement will, if continued, shear the iron, splitting and rupturing the pipe. Any rotation of the pipe joint is therefore undesirable."
(my emphasis)
'in summary the plan location of point 1072 is such that its movements are not directly relevant to the water main. It is probable that the apparent sudden localised movement recorded is due to the pin being damaged or shortcomings in survey control if the pin was destroyed and replaced. If a localised movement did occur, this is not relevant to the water main since it is probably associated with poor backfilling of a shallow trench well above the level of the water main".
"The specific problem of analysing the cast iron strains and stresses induced by longitudinal relative rotation of a large diameter pipe with a lead run joint is not addressed in the technical engineering literature. Although the mechanism is well known to cause failure, particularly in brittle materials, it has proved to be a complex problem from a theoretical standpoint, since it is very difficult to allow for uncertainties caused by the geometry of the 'as built' joint and the effective stiffness of the seal.
(The specific problem is not dealt with in the literature by any established numerical, close form or analytical methods.)"
"A three-stage approach to investigating a potential joint rotation induced failure mechanism is a valid methodology.
Stage I assessment of the most likely movements
Stage 2 assessment of the strains in the pipe line by relating movements to laboratory tests
Stage 3 evaluating the effects of such strains on the pipeline.
"The TRL test also enabled the relationship between joint rotation and induced socket strains to be quantified. The Stage II monitoring recorded the horizontal and vertical joint movements at different increments of applied load. This relationship enables the joint rotations to be linked directly to the recorded strains….".
"The caveat is the speed in which the test was undertaken".
"…the fact that the load was applied rapidly, in the sense that creep properties of the lead in the joint, had to be acknowledged, that was an issue that had to be understood in interpreting the test".
He was further asked in cross-examination
"Q. Mr Lance…my question is: it did not even occur to you, as a scientist, that such a qualification was a legitimate qualification at the time that you wrote your report?
A. There are many factors that have to be taken into account in undertaking an engineering study. You cannot list all of them in your conclusions.
Judge Wilcox: What about the vital ones?
A. The vital ones are also attributable to the test. The test was not loaded in the way the pipe was in the ground so that had to be taken into account.
Mr Taverner: Mr Lance, you still have not answered my question. My question is this: I was suggesting to you that when you wrote this report, disqualification of this caveat was not even in your mind, it had not occurred to you. It is either a Yes or No.
A.. It had occurred to me, Yes.
Q. Had it occurred to you at the time that you wrote your supplemental report?
A., Of course
Q. But no mention here?
A .No.
Q .No mention of it being an issue between the parties or a concern between the parties in the joint statement?
A. It certainly was not discussed in the joint statement.
'that the most likely cause of the failure was considered to be in plain hoop stresses arising from point load to the outside of the pipe…"
when as an expert reviewing the whole of the evidence, he would have known that Mr Ingham, the author of that report, did not have the information to arrive at that conclusion. Mr Ingham acknowledged this when he gave evidence on Day 8 of the trial in the hearing of Mr Lance. He accepted that causation could either be by a point load on the top and a point load at the bottom of the pipe, or it could be caused by the prising force as Dr New had suggested.
"The TRL test enabled the relationship between joint rotation and induced socket strain to be quantified".
Q. "Mr Tavener: So, Mr Lance, the fundamental difference between you on the reports that were exchanged, was that you said 40 microstrains because you missed out the pin movement and he said 360 using the pin movement?
A. Yes, I agree with that.
(Pause) Dr New said 325 not 360, forgive me."
THE METALLURGICAL EVIDENCE
"…from the pattern of fractures as shown for example in the sketch produced by Dr T.J. Baker immediately following the failure .. that the prime point of initiation of the fractures must be associated with the fractures around the large single piece ejected from the pipe marked X".
"… the failure takes the form indicated by (c) or (d) in viii or a combination of both. That is, bursting by excessive radial forces and/or fracture by excessive shear across the joint. This is entirely consistent with failure due to differential ground movements as deduced by a process of elimination described in paragraph 2.05. I formed the opinion that the prying/levering forces caused by the longitudinal rotation of the spigot within the socket (due to differential ground movement), possibly with some shearing, may have given rise to substantial strain within the socket. This mechanism is illustrated in figure 10 of my report. These strains were over and above those caused by the normal operation and use of the main and at this stage of the investigation, I consider that they could have been the cause of failure."
"45. The pattern of fractures in the failed cast iron water main at St. Thomas Street is typical of the one in which there has been a high contact force is between spigot and socket with the spigot tending to 'lever' a piece out of the socket.
It is concluded that the most likely explanation for the failure is a combination of loadings, causing concentrated forces at the spigot to socket joint. Since normal pressure and self weight loadings give only very low stresses, and over pressure and vehicle weights have been excluded, the most likely cause to the additional stress is to cause the failure is from ground movement".
"The shape and location of the failed top section of the pipe indicated to me that a sheared type failure of the pipe had taken place. This is because the shape of the failure surface, which extended between the socket access and the barrel crown at an upward angle. This type of failure can develop either from the application of short-term external vertical load to the barrel of the pipe, or from in-plane bending forces in the socket, such as those arising from joint rotation (prising effect) or from an external load acting on a hard spot at the support (hammer and anvil effect)."
"It is agreed that the fracture surfaces do not show any classical chevron pattern, typical of brittle fractures in some materials. It is therefore not possible to identify fracture initiation positions unambiguously and with certainty from fracture surfaces."
"The chevron marking pattern on the fracture face at the suggested initiation site was indicative of a very localised, point loading close to the top of the pipe…"
"The claimant's own test clearly demonstrated the ability of another section of the same pipeline to support the deduced joint rotations. The test piece also demonstrated an ability to support strain at levels above the supposed maximum design levels. In addition the test showed a distinctive different failure mode from the actual pipe. My analysis shows minor joint rotations arising from the recorded settlements and moderate levels of applied strain in the joint at failure. Taking into account the excellent condition of the pipe material, I can only conclude that failure resulted from the application of a dynamic forced unrelated to joint rotation".
