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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 >> Fuji Seal Europe Ltd v Catalytic Combustion Corporation [2005] EWHC 1659 (TCC) (20 July 2005) URL: http://www.bailii.org/ew/cases/EWHC/TCC/2005/1659.html Cite as: [2005] EWHC 1659 (TCC), 102 Con LR 47 |
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QUEEN'S BENCH DIVISION
TECHNOLOGY AND
CONSTRUCTION COURT
St Dunstan's House 133-137 Fetter Lane London EC4A 1HD |
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B e f o r e :
____________________
| FUJI SEAL EUROPE LIMITED | Claimant | |
| -v- | ||
| CATALYTIC COMBUSTION CORPORATION | Defendant |
____________________
Smith Bernal Wordwave Limited
190 Fleet Street London EC4A 2AG
Tel No: 020 7404 1400 Fax No: 020 7831 8838
(Official Shorthand Writers to the Court)
MR RICHARD HARDING (instructed by Hacking Ashton) appeared on behalf of the Respondent.
____________________
Crown Copyright ©
Wednesday, 20th July 2005
(10.30 am)
Part 1. Introduction
"The following emission concentration limits, expressed as 15 minute mean values, should apply to releases from contained sources:
"Emissions ...
"Volatile organic compounds (as total carbon excluding particulate matter) in cases other than described above 150 mg/m3."
Part 2. The Facts
"I have spoken to Catalytic Combustion Corp. since our conversation yesterday. I have made it clear that they are invited to put in a proposal, but only if they can get a fully detailed bid in by two to three weeks' time.
"They want to have a go at it, and are likely to want a look at site some time next week.
"I'll contact you when I have a date suggested."
"2.0. System Recommendation.
"After a thorough application and review of your process and conditions, we have determined that a Zeolite Rotary Concentrator System with a Catalytic Oxidiser provides the best balance between required operational conditions, initial capital costs, and annual operational costs. Catalytic Combustion recommends the application of a CCC designed Vision Model 350 Rotary Concentrator to destroy the volatile organic compounds from the Printing Press Exhaust air stream through the capture and destruction of the VOCs with the chemical reaction process of catalytic oxidation.
"The Vision Rotary Concentrator is a VOC Abatement device designed to remove Volatile Organic Compounds from the Printing Press Exhaust air stream through a two step procedure:
"1) Adsorption and Concentration of the VOCs using a Hydrophobic Zeolite Rotor
"2) Destruction of the Concentrated VOCs by a Catalytic Oxidiser
"The system will be mounted on a single skid assembly, pre-wired and pre-piped to provide for ease of shipment and field installation. Onsite installation is limited to unloading, setting on the concrete pad and connecting to ductwork and utilities.
"The catalyst we recommend for your system is a precious metal catalyst, based upon a ceramic bead substrate. A catalyst is a substance that accelerates the rate of the chemical reaction of the volatile organic compound without being consumed. The VOCs in the process exhaust stream, and any CO2 generated by the system burner combustion, are converted to carbondioxide, H2O, and thermal energy ...
"The advantages of a Rotor Concentration System over a traditional thermal or catalytic oxidation system are the following:
"a) Lower Operating Cost due to the reduction of air volume requiring destruction and the high VOC loading through the concentration of the larger air stream.
"b) a more compact, lighter, less expensive materials of construction which equates a lower initial capital cost for the equipment.
"c) reduced maintenance requirements due to the smaller equipment size."
"Achieve a minimum of 94 per cent plus Total Destruction Reduction Efficiency of the VOCs in the exhaust stream - Less than 50 mg/m3 as carbon."
"Catalytic Combustion understands that the UK has had its share of problems with VOC Abatement Systems. Many of the companies offering various technologies do not have a solid track record with the systems, and therefore are still in a learning curve phase for the supply of equipment. Catalytic Combustion has the process knowledge, engineering expertise, and experience to assure you that your system will be one of the most reliable components that Fuji has in its plant. Our references will put any questions you have to rest."
"2.0 System Recommendation
"After a thorough application and site review of the Fuji Seals process and conditions, we have determined that a VOC Abatement Plant that utilises a Rotary Concentrator with a Combined Heat and Power System provides the best balance between required operational conditions, initial capital costs, and annual operational costs. Catalytic Combustion recommends the application of a CCC designed Vision Model 350 Rotary Concentrator with CHP to destroy the Volatile Organic Compounds from the Gillingham Works Exhaust air stream through the capture and destruction of the VOCs with the chemical reaction process of thermal oxidation.
"All items of supply have been selected to ensure optimum trouble free operation with minimum downtime. We recognise the importance to Fuji Seal of uninterrupted operation, and as providers of system maintenance have no desire to introduce excessive plant attention demands, as may be seen from the appended reference list for major supply components there are in existence numerous installations. We would welcome the opportunity to host visits by Fuji Seal personnel to sites [where] precisely the same equipment is in current use affording the opportunity to solicit information directly from existing users.
"Notwithstanding the experience referred to above we are always keen to seek new and innovative designs and plant. This encourages us to constantly consider alternatives, such as the employment of a reciprocating engine in lieu of a turbine for power generation. In this case our investigations gleaned such a poor history of failures and problems that we have no hesitation to stress that in the interests of both purchaser and vendor this project must remain with tried and tested equipment.
"Catalytic Combustion is a North American company but has for some time planned a presence in the United Kingdom. It is now our intention to implement that plan by establishing an office in England staffed with experienced personnel. Fuji Seal thus would be the first customer to benefit from that arrangement, and would be provided with a system which, with Fuji Seal approval we would wish to make our showpiece of European operations. For the purpose of this contract our local office would be in addition to the head office support, and would be assisted by GMS for maintenance duties, and GreenBank Technology for ancillary supplies and site activities. The assembly of such a team offers unrivaled experience specific to this project.
"The Vision Rotary Concentrator is a VOC Abatement device designed to remove Volatile Organic Compounds from the Gillingham Works exhaust air stream through a two-step procedure:
"1) Adsorption and Concentration of the VOCs using a Hydrophobic Zeolite Rotor
"2) Destruction of the concentrated VOCs by an oxidiser
"The CHP plant will be comprised of an Allied Signal Natural Gas Turbine, that will process the concentrated VOCs as fuel during the oxidation process. The reaction of the oxidation will be used to turn an electrical generator included with the plant. The generator will produce 525 kW of continuous electricity for use by the Plant.
"The system will be mounted on a single skid assembly, pre-wired and pre-piped, to provide for ease of shipment and field installation. On-site installation is limited to unloading, setting on the concrete pad, and connecting to ductwork and utilities. The plant has been designed with regard to the business park setting, and will incorporate the most advanced noise abatement techniques available to assure [quiet] operation. The noise level of the plant would be less than 85 dba at 5 metres.
"3.0 Program
"Due to the requirement for immediate action that has been brought about to resolve odour complaints with the local council, the attached schedule has been provided for Fuji Seals review. Upon receipt of a letter of intent from Fuji Seals, the project will immediately begin Phase 1 of the schedule.
"Phase 1 will entail addressing and correcting the plant odour problem to satisfy the local council. Catalytic Combustion will immediately commission GreenBank Technologies to begin the manufacture and installation of the necessary ductwork and components required to discharge the Gillingham Works plant exhaust through a single exhaust stack at a height of 15 metres above grade. Liaison with the local council will immediately notify the proper authorities of the corrective action being taken and will begin the process of permitting towards final compliance with the UK Environmental Laws. The course of action for Phase 1 has been designed to minimise any waste of funds between Phase 1 and Phase 2. All of the equipment and installation for Phase 1 will be utilised for the final installation of equipment during Phase 2. This eliminates Phase 1 from being a temporary solution.
"Phase 2 will entail the design and manufacture of the VOC Abatement Plant and the CHP System. Phase 2 will begin when the final financial documents have been agreed upon and signed by Fuji Seals. Phase 2 is expected to last approximately 99 business days and would be completed before the end of September."
"Total Maximum Air Flow: In sizing the system fan Doug will look at both 60,000 and 75,000 nm3/hr for pricing estimate. Need to know what Fuji wants for worst case air flow and potential cost increases."
"VOC Abatement Plant:
"To include complete Scope of Work supply per quotation 1,078,000BSP
"Combined Heat and Power Plant:
"To include complete Scope of Work supplied per quotation 572,643BSP."
"New Option 1
"VOC Abatement Plant with Catalytic Oxidiser. I have given a very low price for a turn-key VOC abatement plant, which will obtain less than 100 mg/nm3 as VOC discharge. This is the option I recommend for Fuji to solve the EPA and Odour problems. We can then review CHP designs after the system is under manufacture."
"I have now received a copy of the response from the Japan office. There is a point I believe that they are missing here. If there was not a Concentrator System with the application, I agree with their statements. For the full 70,000 nm3/hr volume, a 70,000 nm3/hr Regenerative Thermal Oxidiser would be a better choice than a 70,000 nm3/hr Catalytic Oxidiser - not in every case, but for your project an RTO would be a better choice. In looking at the Fuji Exhaust Stream and doing an extensive process stream characterisation and application engineering review, CCC did compare an RTO vs a Rotary Concentrator. Besides the point that Fuji Seals did not want a 'Thermal Oxidiser' or RTO because of the problems the US plant was having, a RTO was not the correct choice for Fuji Seals ..."
"Attached is the comparison document between an RTO and a Rotary Concentrator.
"As I told you previous, CCC and our European Partner Eurocad manufacture the best RTO System on the market. The reliability of the system cannot be matched due to a patented single shaft mechanical drive to move the valving system. We would be more than willing to quote an RTO to Fuji.
"But, for you plant and process, an RTO does not make good sense as a technology choice, mostly due to the high operating cost of the required natural gas and electricity. That is why we did not offer an RTO previously ... plus with the problems that Fuji America has had with their RTO it did not make sense. The purchase price of a 70,000 nm3/hr RTO is going to be higher than a concentrator also."
"The existing Gillingham Works operating conditions were determined on March 23rd and 24th 2000 by conducting a thorough site survey. The survey was conducted by Green Bank Technologies, and the following operating conditions were established:
"Existing Total Volumetric Exhaust Flow .... 50,880 nm3/hr.
"Existing Exhaust Flow VOC Loading .... average 0.8 grams per nm3. Maximum 1.5 grams per nm3.
"Existing Works Operational Hours per annum .... 8,400.
"Current Regulations for Emission Discharge .... less than 150 mg/nm3.
"It should be noted that the existing printing presses and dryer hoods are currently out of balance, and that the total exhaust flow from the presses and hoods will increase upon balancing of the system. Also, the speed of operation for the printing presses is quite low, and further increase of press speed will require the increase of the dryer exhaust flow to achieve proper curing.
"Subsequent conversations about future operating conditions and projections have [led] to the following design criteria for the VOC Abatement Plant.
"Existing Total Volumetric Exhaust Flow .... 70,000 nm3/hr.
"Existing Exhaust Flow VOC Loading .... average 0.8 grams per nm3. Maximum 2 grams per nm3.
"Existing Works Operational Hours per annum .... 8,400 [plus]
"Future Regulations for Emission Discharge .... less than 150 mg/nm3."
"We have an anticipated exotherm of - 90 degrees Fahrenheit. We would like to control the catalyst outlet temperature at - 750 degrees Fahrenheit ..."
"System Parameters:
"Concentrator Maximum Volume: 70,000 Nm3/hr
"Oxidiser Maximum Volume: 7,000 m3/hr
"Maximum VOC Input: 800 mg/m3
"Emission Limits: less than 50 mg/m3 as Carbon at 800 mg.
"VOC Abatement Plant Design Based Upon:
"The CCEL Design of the supplied VOC Abatement Plant was based upon a Green Bank Technologies report, dated 24th March 2000, Airflow Survey Report submitted to CCEL by Fuji Seals during the initial stages of the quoting process. The report was a recording for the normal operational exhaust conditions of the 3 existing gravure print lines including the airflow balance for the 3 printing lines with solvent levels and airflow recordings. The report was originally commissioned by Fuji Seals as a method for specification of the requirements for the size and design of a VOC Abatement System for the Gillingham Works.
"The report is attached to the contract as attachment A of section 1."
"It looks to me that Fuji is running extremely high solvent levels - mg/m3 - per what the catalyst temperature outlet is showing from the exothermic reaction.
"I have run through a short balance listed below.
"It looks like they are running over 2.366 mg/m3 as VOC in their inlet stream - we had listed a maximum of 800 mg/m3 - although we did make mention as to up to 2 mg/m3 spikes - I will have to review the documentation to see what was stated in previous correspondence.
"At this point in time I do not want to make an issue out of the inlet solvent level ... I would rather try to get round the problem and have the system operating without problem, and then deal with informing Paul of the problem afterwards."
"Oxidiser High Temperature Shut Downs.
"I had several phone calls from Paul on 4th and 5th November, very concerned about the Oxidiser/system keeps shutting down on High Catalyst Outlet Temperature Alarm.
"It looks as if the problem is being caused by the ink bay hoods that have been fitted to the presses, which in turn is increasing the solvent loading to the abatement system.
"Last week only the 7 colour press had hoods fitted, the catalyst outlet temperature was running around 580 deg C and peaking 600 deg C. The hot bypass damper was working and managing to control the inlet temperature between its set point [at] 315 deg C and 345 deg Centigrade.
"The hot bypass damper will not completely stop the inlet temperature from rising, as part of the outlet air flow will still pass through the heat exchanger, while the rest will go out through the damper. This is because there is a very low pressure drop through the heat exchanger and the flow will take both paths.
"On Monday this week, the ink bay hoods were also fitted to the 8 colour press. This is when the high catalyst outlet alarms started to shut the system down.
"The 8 colour press was printing with 5 colours: 1 x Hi Tec and 4 x BASF inks (plus hoods).
"The 7 colour press was printing with 5 colours: 5 x Sun inks (plus hoods).
"The 9 colour press was printing with 6 colours: 6 x Sun inks (No hoods).
"Under these printing conditions the catalyst outlet temperature was reaching 665 deg C while the inlet temperature was at 360 deg C giving an exotherm of over 300 deg C - probably in excess of 20 grams per nm3 solvent loading going into the oxidiser.
"Paul called me in for a meeting in his office to discuss the following points:
"1. He is now extremely concerned that the abatement plant cannot handle the increase in solvent loading with only some of the hoods being fitted and will obviously cause even greater problems when they are ALL fitted.
"2. Paul has realised through his own calculations that the oxidiser is too small or of the wrong type. The main concern is that these hoods are now a health and safety issue and must be fitted to the presses.
"3. He feels that CCC have been aware of the problem for some time now, and have done nothing to correct the situation other than getting split welds re-welded, which does not address the basic cause of the problem.
"4. Paul said that Mark was looking into the possibility of finding a secondhand thermal unit to replace the catalytic oxidiser, but has not heard any more about this.
"5. This is now a crunch situation, it cannot go on like this any longer. The hoods have to be fitted and the abatement plant has to work reliably without shutdowns. Paul has said that CCC have to rectify the problems as quickly as possible, if they are not prepared to resolve the situation. Fuji will find another company to modify the system and place the matter in the hands of their lawyers."
"Based upon the data taken in December and the modelling performed by Munters, we are convinced that the oxidiser is operating at [more than] 25 per cent LEL a large percentage of the time and as such could be in violation of safety standards for maximum allowable LEL input without proper oxidiser LEL alarm controls.
"The oxidiser and catalyst were not designed to process the amount of VOCs currently [is] being directed to the oxidiser and the oxidiser reactor will experience premature wear and tear and will require repair and maintenance beyond standard protocol."
"The Pro-Pel GA 18 catalyst shows poor activity when compared to a fresh sample. A surface area measurement revealed that this catalyst had lost 60 per cent of its surface area. This loss is irreversible. Depending on the destruction requirements of VOCs, it may be necessary to increase the inlet temperature of the oxidiser by at least 100 degrees Fahrenheit. This is a temporary solution, and eventually, the catalyst will need to be replaced."
Part 3. The Present Proceedings
(i) There were collateral warranties between Fuji and CCC as follows:
"(i) If Fuji Seal contracted with CCE to carry out works in accordance with CCC's aforementioned proposals and in particular that dated 30 May 2000 this would satisfy Fuji Seals stated requirements, and
"(ii) such a contract would produce a 'full turn-key installation' as referred to therein."
CCC acted in breach of those warranties.
(ii) CCC owed a duty of care in tort to Fuji:
"... to exercise a reasonable degree of skill, care and/or diligence in the design and/or determination and/or recommendation of a VOC abatement system for the Fuji Seal Plant and/or in representing to and/or advising Fuji Seal that the CC VOC System was the appropriate system for the Fuji Seal plant."
(i) cost of suitable replacement VOC abatement system.
(ii) overpayment caused by CCC recommending an unsuitable solution.
(iii) costs incurred in maintaining the system in order to process part of Fuji Seals VOC emissions.
(iv) consequential loss.
Part 4. The Evidence Given by Witnesses of Fact
Philip Heyworth
Paul Vidler
Nicholas Winchcombe
In 2000 the average print speed was 97 metres per minute.
In 2001 the average was 104 metres per minute.
In 2002 the average was 111 metres per minute.
In 2003 the average was 108 metres per minute.
In 2004 the average was 106 metres per minute.
Richard Brooks
Malcolm Pym
Randal Hanan
"After a thorough application review of your process and conditions, we have determined that a zeolite rotary concentrator system with a catalytic oxidiser provides the best balance between required operational conditions, initial capital costs and annual operational costs."
"... included a large volume of technical and project-related information and a turn-key summary project scope for the abatement plant."
"After a thorough application and site review of the Fuji Seal's process and conditions, we have determined ..."
Ivan Chamulak
Mark Ruff
Part 5. What Contractual or Tortious Duties Were Owed by CCC to Fuji?
"Fuji Seal contends that in circumstances where the design was undertaken by CCC who then recommended that the contract for performance of the relevant obligations should be with CCE (albeit the explanation given at the time was CCC was in essence just a vehicle for Fuji Seals payments: see paragraph 36 of Paul Vidler's statement at [B1/268]), a situation materially analogous in Shanklin Pier arises ... Indeed, Fuji Seal's facts are stronger than those in Shanklin Pier because the nature of the warranty was the very production by CCC of the design that CCE was going to implement."
"In the result, I am satisfied that, if a direct contract of purchase and sale of the DMU had then been made between the plaintiffs and the defendants, the correct conclusion on the facts would have been that the defendants gave the plaintiffs the warranties substantially in the form alleged in the statement of claim. In reaching this conclusion, I adopt the principles stated by Holt CJ, in Crosse v Gardner and Medina v Stoughton that an affirmation at the time of sale is a warranty, provided it appear on evidence to have been so intended.
"Counsel for the defendants submitted that in law a warranty could give rise to no enforceable cause of action except between the same parties as the parties to the main contract in relation to which the warranty was given. In principle this submission seems to me to be unsound. If, as is elementary, the consideration for the warranty in the usual case is the entering into of the main contract in relation to which the warranty is given, I see no reason why there may not be an enforceable warranty between A and B supported by the consideration that B should cause C to enter into a contract with A or that B should do some other act for the benefit of A."
(i) Although two years old, the Stanger report was plainly relevant to the task in hand. Stanger did their survey at a time when Fuji had the same printing machinery in operation.
(ii) Mr Vidler asked Mr Hanan to look at both the GMS report and the Stanger report (see Day 2, page 89).
(iii) Mr Rafflenbeul (the defendant's expert witness) said in cross-examination that he would expect someone in that position to look at both reports or at least to tell the client if he was going to disregard one of the reports.
(iv) Mr Hanan said that he took account of all reports, including the Stanger report, when preparing the proposal dated 30th May.
Part 6. The Principal Issues Between The Expert Witnesses
(i) What concentration of VOCs was revealed by the GMS survey?
(ii) Was it reasonable for CCC to interpret the GMS report as recording 0.8 grams of VOCs as solvents per cubic metre?
(iii) How much heat is generated by VOCs passing over the catalyst bed?
(iv) What VOC loading should CCC have designed for?
(a) The GMS report indicated a loading of 1.5 grams per cubic metre. The peaks would obviously be significantly higher. Also, the figure of 1.5 grams had a margin of error of 10 per cent.
(b) As both Dr Leci and Mr Rafflenbeul agree, at the time of GMS's tests, there were significant fugitive emissions. If these were captured by the abatement plant (as was desirable), this would significantly increase the VOC loading.
(c) At the time of GMS's tests, four ink trays were disconnected from the exhaust system. At first, in cross-examination, Mr Rafflenbeul was inclined to dismiss this. Subsequently, however, he conceded that this would have caused GMS to underestimate the quantity of VOCs.
(d) Fuji had made plain their intention substantially to increase press speeds. Whatever Mr Hanan may have thought about the antiquity of Fuji's presses, he was not entitled to disregard that stated policy of his customer. Furthermore, according to Mr Rafflenbeul's evidence (which I accept on this point), there is a direct and linear relationship between press speed and emission of VOCs. See paragraph 2.16.1 of Mr Rafflenbeul's second report and his cross-examination on the afternoon of Day 6.
(e) The Stanger report of 1998 indicated a concentration of 3.6 grams per cubic metre. Although initially this figure was disputed, both experts had accepted it by the end of cross-examination. It is now common ground that the Stanger report was provided to CCC.
(f) Mr Rafflenbeul stated in cross-examination that it is appropriate to design plant for a VOC loading which is somewhere between the average figure and the peak figure.
(v) Was the abatement equipment which CCC recommended to Fuji appropriate?
(i) The system as a whole was designed for far too low a VOC loading, namely 0.8 grams per cubic metre on average and 1.5 grams per cubic metre at peaks.
(ii) Substantial overheating in the catalyst chamber was inevitable. The catalyst was likely to be damaged in consequence. It will be recalled from Part 2 of this judgment that Prototech designed the catalyst for an exotherm of only 50 degrees.
(iii) According to the manufacturer's data, the Munters wheel was designed for a VOC concentration of 0.8 grams per cubic metre at a flow rate of 70,000 normal cubic metres per hour. The Munters data also indicates that the required removal efficiency would be achieved if the peaks of VOC loadings were 2 grams per normal cubic metre of air. In actual fact, the concentration of VOCs, both in regular use and at peaks, was likely substantially to exceed the design basis adopted by Munters. I accept Mr Rafflenbeul's evidence that the Munters wheel probably performed better than indicated in the manufacturer's data. No doubt there was a factor of safety. Nevertheless, for the actual VOC loadings which sometimes pass through the system, the Munters wheel is likely to be inadequate.
(iv) More fundamentally, the whole concept of a rotary concentrator and catalytic converter was inappropriate. A rotary concentrator and catalytic converter are suitable equipment for plant which generates only low levels of VOCs. Given the levels of VOC loadings which ought to have been identified (as mentioned earlier in this judgment), the appropriate abatement equipment was an RTO. See paragraph 3.5.5 of Mr Rafflenbeul's first report and the chart prepared by Dr Moretti which both experts have appended to their respective reports.
Part 7. Liability
(i) CCC misread the GMS report and concluded that the normal VOC loading was only 800 mg/m3.
(ii) CCC recommended an abatement system which was manifestly inadequate for Fuji's needs. The specified temperature in the catalyst chamber was bound to be substantially exceeded. The Munters wheel was not designed to be capable of adsorbing sufficient VOCs during periods of high usage. The system as a whole could not cope with the likely VOC loading.
(iii) CCC failed to recommend appropriate abatement plant, namely an RTO.
(i) What would Fuji have done if in spring and summer 2000 it had received correct advice from CCC?
(ii) Is CCC's breach of the duty of care the cause of the problems which Fuji has experienced post installation?
(i) Mr Vidler said in evidence that if CCC had recommended an RTO system, he would not have rejected that advice.
(ii) It is inherently probable that Fuji would have bought an RTO, if CCC had recommended that. CCC was a specialist supplier which commanded Fuji's confidence. If Fuji had recommended an RTO, that advice would have chimed with what Fuji's head office in Japan wanted to hear. Also, the capital cost of an RTO was substantially less than the capital cost of a concentrator and catalytic oxidiser. Capital outlay was a major factor in Fuji's deliberations.
(i) The average press speeds have increased since 2000 but not to any great degree. See the summary of Mr Winchcombe's evidence in part 4 above.
(ii) It is quite true that actual printing speeds will depart substantially from the average, as Mr Winchcombe conceded in cross-examination. There will be peaks and there will be troughs. On the other hand, this has always been the case both before and after the year 2000. See, for example, the graphs contained in the Stanger report of 1998.
(iii) Fuji specifically informed CCC of the intention to increase press speeds and asked CCC to take this into account in its design. See the summary of the evidence of Mr Heyworth, Mr Vidler and Mr Hanan in Part 4 above. See also the minutes of the meeting on 17th May 2000.
(i) The principal basis of RTO design is volume rather than VOC concentration. See Dr Leci's evidence on Day 4, and at Day 5, pages 77 to 78.
(ii) Fuji required abatement plant that would take a substantial volume of exhaust gas, namely 70,000 Nm3/hr. Therefore, that is the capacity of RTO which Fuji would have acquired in 2000.
(iii) if the concentration of VOCs increases beyond that for which a particular RTO is designed, it is not necessary to scrap the RTO. The matter can be simply remedied by installing a hot side bypass. See Dr Leci's evidence at Day 5, page 78. It should also be recalled that an RTO is a piece of equipment which is specifically intended to cater for higher levels of VOC loading.
Part 8. Quantum of Damages
(i) overpayment in 2000;
(ii) costs incurred in maintaining the original plant since 2000;
(iii) costs of acquiring a suitable replacement abatement system.
(i) Overpayment in 2000
(ii) Costs incurred in maintaining the original plant since 2000
(iii) Costs of acquiring a suitable replacement abatement system
Head (i), £349,200; Head (ii), £49,282; Head (iii), £570,000.
