Tag Archives: JV in Community

Yorkshire Archaeologists Discover Iron age Chariot Near Village of Duggleby ‘The Pocklington Ferrari’

In my Joint Ventures I found it was very important to work closely with the local community. Here is an example of a Yorkshire Building Company supporting local archaeologists who then uncovered fantastic Iron Age artefacts in an area destined for a housing development. The builder benefited from national TV and Press coverage (local press article here) and the archaeologists received funding and time to carry out a thorough excavation and preservation of findings.

Hundreds of years before the Romans invasion of Britain the Parisi tribe (Arras culture) in East Yorkshire had built an incredible road network. They used highly developed metal working skills using iron and bronze to make high speed chariots which travelled between local villages – ‘motorways’ across the chalk countryside.

Map of the Territory of the Iron Age Parisi Tribe East Yorkshire

Recently archaeologists made a stunning discovery of an upright Iron Age Chariot complete with horses and rider in the town of Pocklington – 17 miles from the village of Duggleby with its famous Neolithic Round Barrow.

Prof Alice Roberts on the BBC described the chariot as the Iron Age equivalent of a cross between a fast sports car and a military tank. Therefore I have christened it ‘The Pocklington Iron age Ferrari‘. Actually naming it after an Italian high performance car is a little ironic because this find together with other local Iron Age discoveries have cast doubt on the idea perpetuated by the Roman Marketing Department that their British opponents were a band of uncivilised, primitive barbarians.

Equivalent of ‘Iron Age Ferrari’ Found at Pocklington Archaeological Site

The area around the Duggleby Village in East Yorkshire has a long and fascinating history. A few years ago I published a global Duggleby family tree dating back to Sir Henry Duggleby (born mid 12th century). Several Dugglebys mentioned in the tree have lived in Pocklington.

Pocklinton also played a key role in Duggleby history because Chancery Inquisitions made there in 1246  and 1282 mentioned Adam de Diuelkeby and Adam de Dugelby (both old English ways of spelling the word Duggleby). These together with Church and Monastery Records mentioning grants of land from wealthy Dugglebys to the Bridlington Priory helped elucidate early parts (12th & 13th Century) of the family tree .

So the news of a stunning archaeological site in this part of East Yorkshire caught my attention. Duggleby village is already home to Duggleby Howe, the largest prehistoric round barrow (burial mound) in Britain dating from around 3000 BC (similar age to Stonehenge). If you are interested in more detail about Duggleby Howe and its excavations check out the article by Alex Gibson using the link here (the first bit is in French – the English description starts at paragraph 10 – lots of pics!).

Duggleby Howe, Large Round Barrow or Ancient Burial Mound, Yorkshire, England
Duggleby Howe, Large Round Barrow or Ancient Burial Mound, Yorkshire, England

What I particularly like about the excavations in Pocklington is that they uncover a period between the Neolithic burial site at Duggleby Howe (ca. 5000 years old) and the records of Duggleby (Difgelibi) in the Domesday book  (dated 1086) and the early parts of the Duggleby family tree (with Sir Henri ca 1150). The Iron Age Chariot is over 2000 years old.

Domesday Book (1086) entry of Duggleby (Difgelibi)

So what was so unusual about this chariot to ensure it featured in a BBC archaeology programme (Digging For Britain: Iron Age Revealed)? After all there have been 25 stone age burial chariots found in Britain – 23 in East Yorkshire alone! Well take a look at the following photo taken during the excavation:

Pocklington Iron Age ‘Ferrari ‘Chariot Burial Site (courtesy BBC/MAP Archaeological Practice)

This chariot was found near to an iron age cemetery involving 74 square barrows and over 164 skeletons (info from Current Archaeology using the link here). It was part of two barrows which the experts described as ‘most impressive, with no British parallel’. The smaller of these was round and contained a young man, 17-25 years old, buried with a spear. His remains indicate he had experienced violence during his life, perhaps in battle, many years prior to his death (two nose fractures – fully healed before his death).

From the larger  Square Barrow: Pilot’s Skeleton Found on Upright Chariot  (courtesy BBC/MAP Archaeological Practice)

It was the larger square barrow at the site that contained the Iron Age Ferrari driven by what was clearly a ‘high-status individual‘.  He is believed to have been over 46 when he died and therefore lived longer than most others in his community. The skeleton shows no signs of weapons injury. Unlike the other chariot burials in the UK this one was buried complete and attached to two upright horses. The rider was found lying in the chariot positioned on top of a well-preserved bronze covered shield. He also had a highly decorated brooch (but no weapons).

Bronze Shield found under the ‘Pilot’ of the Pocklington Iron Age Chariot (courtesy BBC/MAP Archaeological Practice)

Nearly all of the other chariots found in Britain were dismantled with the wheels laid flat – this one, however, was ‘ready to go‘. The two pony skeletons were also positioned upright ready to lead the chariot out of the grave. In order to get them into this unique position they were probably ‘well tried, tested and trusted’ ponies that were led down into the burial site and harnessed up to the chariot before having their throats cut. To preserve them in this upright position the burial area must have been quickly back-filled as soon as they were killed.

Pocklington Iron Age Chariot ready to go with Horses and Pilot in situ (courtesy BBC/MAP Archaeological Practice)

The wheels of the chariot had iron ‘tyres’ surrounding a (decomposed) wooden frame. Changes in the soil colour indicated where the wheel spokes had been. The hub at the end of the wheel axle was surrounded by an ornate bronze band. Although they were over 2000 years old the iron tyres were still complete and had been forged as continuous rings of iron. Clearly these ancient Brits had consummate metal working skills well before the arrival of the Romans.

Pocklington Iron Age Chariot Wheel and Axis in situ (courtesy BBC/MAP Archaeological Practice)

Another interesting feature of Iron Age East Yorkshire has been identified using aerial archaeology techniques. These have uncovered track-ways along the ground in which the local width of the ruts cut into the chalk match the axle width of the stone age burial chariot. These stone age road ways were probably cut out of the topsoil to reveal the underlying chalk which provided an excellent all weather surface for driving. It therefore appears that the invading Romans were not the first to introduce roads into Britain. These track-ways are believed to have preceded the Romans by several hundred years.

Areal Photo of  Chariot Track-ways from Iron Age East Yorkshire (courtesy BBC)

Lots of the local iron age communities were connected by these track-ways indicating the existence of an intricate network of chariot based transport. Close analysis of the bones of the fingers of the man placed on this upright chariot indicate swellings where the tendons would have been attached. Such swollen areas are indicative of the bone growth caused by increased use of the area in question – consistent with someone ‘experienced in handling horse reins’. This points to the fact that this person was indeed a ‘charioteer‘.

Pocklington Chariot Pilot’s Hand From Burial Site (courtesy BBC/MAP Archaeological Practice)

A further indication of the status of the individual found with the chariot were the remains of 6 suckling pigs. In fact an iron age meat hook was still attached to some of the ribs indicating that this may have been used to throw an offering to the dead pilot straight from the grill. Normally we would expect the pigs to be fattened before slaughter so the use of tender juvenile animals is a further indication of the man’s status and the wealth of the community seeing him off.

If you would like to see how such a chariot would have looked in action here is a short video based on a ride in a reconstructed vehicle (Acknowledgements to Dr Alice Roberts for risking life and limb as she impersonates Boudica ‘Queen of the Brits‘ – Courtesy of the BBC):

Chris Duggleby (Proudly born in East Yorkshire!)

I am indebted in this review to the contributions (information, visuals and dedicated archaeological work) of MAP Archeaeological Practice Ltd (Based in Malton, MD Paula Ware), the BBC, the Current Archaeology Journal, the Pocklington Post and several other on-line resources.

JVs in China – Misuse of Trade Secrets – INEOS and Sinopec

Intellectual Property Rights Joint Venture Risk Case Study

For those of us who have worked in the chemicals industry in China the recent announcement that INEOS is pursuing legal action against Sinopec and its subsidiaries for for breach of contract and/or misuse of trade secrets in relation to the product acrylonitrile is not a big surprise. This can be looked upon as part of the natural evolution of more robust intellectual property rights in China – a land which now files more patents than any other country.

This particular dispute is all about the chemical acrylonitrile – one of the World’s most deadly chemicals because when it decomposes it produces hydrogen Cyanide or HCN. You do not need to worry too much about the smell of HCN because if you can smell it – you have just died!

Lego Bricks (Wikimedia Commons license - acknowledgements to Alan Chia)
Lego Bricks (Photo Alan Chia)

Those outside of the chemical industry might therefore be surprised to hear that acrylonitrile is the key raw material in acrylic fibres (check that label in your sweater or sweat shirt). It is also the A in ABS plastics (acrylonitrile-butadiene-styrene) which in addition to making very tough car bumpers is the main component in Lego bricks, recorders (the musical variety) and, when ground down, produces some very vivid tattoo inks. Acrylonitrile is also an important chemical for the manufacture of water purification chemicals and carbon fibres (as polyacrylonitrile resin).

As is often the case in chemistry it is possible to take very dangerous base products and combine them through chemical reactions to make new compounds which are harmless with sometimes very useful properties (consider common table salt – sodium chloride – half of which is chlorine, a pretty nasty substance that many of us use down our toilets to kill bugs).

Acrylonitrile is therefore a very important chemical and INEOS is the leading international producer. This is due in large part because INEOS owns the worlds best technology to produce it (over 90% of the World’s production of this chemical is made by them or using technology licensed from them). The technology was originally developed by the Oil Company Sohio, in the USA and acquired by INEOS a few years ago. The company calculated in 2014 that this business generated for them up to $500m per annum of profit and had a replacement value of $3 billion. In addition it supported around 5,000 direct and indirect jobs in the USA and Europe.

In 2014 INEOS announced it was taking intellectual property protection action via the Chinese courts and through arbitration in Sweden. The company claimed that Sinopec was building unauthorized factories based on its acrylonitrile technology and that one plant had already been operating for a year. Sinopec replied that its factories used technology it had developed in-house.

I suspect INEOS would have preferred a less public solution but they believed they had no other option than to pursue this through the courts. Their CEO, Jim Ratcliff, was quoted in the Wall Street Journal (28th March 2014) as saying “If they build a half-dozen copy plants, they’ll destroy the acrylonitrile business“.

Likewise the senior management of Sinopec was probably horrified to have their company presented in the global press as if they were third rate forgers operating in the back streets of some provincial Chinese town. Sinopec is China’s leading refining company and one of the most powerful and well respected organisations in the country. It is also owned by the Government and it, or its subsidiaries, are often the partners of choice (or necessity) when foreign companies want to form joint ventures in China.

Let us take a look at some of the risks and issues faced by the parties in this intellectual property dispute – they present an interesting case study for anyone considering licensing their own technology or forming a joint venture in China (or for that matter in any other developing country).

How can such a dispute arise between two huge, well respected and technologically sophisticated organisations?

When western companies want to do business or form joint ventures in developing companies they need to have something the local partner can not easily obtain elsewhere. This is usually their proprietary technology or know-how which is generally referred to as their ‘intellectual property’. This intellectual property can be licensed to the local company for a guaranteed financial payment or it can be used as a lever to get a share in a joint venture and thereby participate first-hand in a rapidly growing developing economy.

The straight forward licensing approach needs to be carefully bound with legal agreements designed to limit the scope of the transfer (e.g. only one company may use the technology for a specific named manufacturing operation or in a single country or region). The agreement must be defensible in a court which has jurisdiction over the local company. This is not always so easy with a partner whose assets are in a country with poorly defined intellectual property legislation or where the courts are likely to be bias in favour of local manufacturers. Therefore there is usually a dispute arbitration clause which operates in a neutral country agreeable to both parties (e.g. Switzerland). Sometimes bonds or other some other guarantees are also required to be deposited with a neutral party to ensure compliance with the agreement.

Due to the difficulties in policing compliance with a license agreement many western companies prefer to go the joint venture route which in addition to allowing them to build a presence in the new market also enables them to keep an eye on how their technology is being used. In a joint venture the western partner can also ensure that strict information and data security arrangements are applied to limit unauthorised access to the proprietary elements of the technology and the manufacturing ‘secrets’.

Sometimes the manufacturing technology requires the use of a ‘special ingredient’ like a catalyst that only the western partner can produce. For example this special ingredient may be based on a proprietary menu the composition of which is not provided to the partner. This approach provides the licensor with an additional control over the application of their technology – which can only work when they supply the special ingredient. The price and supply conditions for such an ingredient are normally a key part of the negotiation between the partners. This approach provides the western partner with another risk management lever – if they suspect the local party is not abiding by the terms of the the technology license they can simply pull the plug on supplies of the special ingredient until the situation is appropriately resolved.

Wherever possible a western company is well advised to try and utilise all of the above intellectual property risk management tools. This might mean forming a joint venture (and ensuring the western partner’s people are included in the management and on the board of directors), then entering into a technology license agreement with the newly formed joint venture and also signing a binding supply agreement with it to supply the ‘special unique ingredient’. In addition to withholding any proprietary information not needed to run the plant (like the composition of a special ingredient) the partners to the venture should be bound by confidentiality agreements.

If we assume that similar risk control measures are applicable in the case now being pursued by INEOS how is it that such a serious dispute has arisen?

Developing Nations Succeed through Innovation

One of the characteristics of developing nations is that they are doing just that, developing. Some nations which 60 years ago were considered to be among the World’s worst ‘copiers’ are now themselves leaders in the development and provision of hi-tech solutions. Consider for example the changing role of Japan during this period. Yesterdays copiers become tomorrow’s innovators.

A company like Sinopec has a huge research and development function and is very active in developing and patenting its own ideas. Over the last 30 years they will have been trying to develop their own ways of producing important chemicals like acrylonitrile and the special ingredients (catalysts) needed for their efficient manufacture. Western companies will always want to maximise their financial return when they license their in-house technologies so there are tremendous incentives for local companies to find ways around foreign patents. Almost certainly this dispute will focus on whether the technology Sinopec and its subsidiaries claim to have developed is truly unique and independent of anything contained in the technology covered by their license from INEOS.

I have described some of the key issues to keep in mind when deciding to license in China but things are seldom straight forward when doing business in this fascinating country and this case is no exception.

You would imagine that based on its terrible experience with Sinopec the management of INEOS would want to avoid any further business dealings with such a ‘corrupt’ organisation. Interestingly in their press announcement INEOS mentioned that they have “otherwise excellent relationships with Sinopec and with China”. You bet!

Marry You Today, See You In Court Tomorrow

On February 20th 2014 INEOS announced the formation of a 50:50 joint venture in Nanjing, China, called INEOS YPC Phenol (Nanjing) Company Ltd. This joint venture will build the largest Phenol Acetone plant in China. It will have a total investment of approximately US$500 million and when complete in 2016 will generate sales revenue of US$800 million. This huge plant will produce 400,000 tonnes of phenol, 250,000 tonnes of acetone and have a capacity of 550,000 tonnes of cumene: products which are vital to China’s continuing growth aspirations.

The partner in this joint venture is a company know locally as YPC, or to give its full name Sinopec Yangzi Petrochemical Company Limited. Yes this is a wholly owned subsidiary of Sinopec (which is also known under the name of China Petroleum and Chemical Corporation). In the west it is probably difficult to imagine getting married to a pretty bride and then one month later taking her mother to court for stealing your wallet! In China such things can happen.

Interestingly, although INEOS is providing its proprietary technology to the joint venture to produce phenol the proprietary technology to manufacture cumene will come from Sinopec. Sinopec will also supply the local feedstocks needed for the new manufacturing joint venture. As I mentioned above Sinopec is not some third-rate backstreet operator. The also have developed their own world class technologies.

Presumably both sides in the above venture will have carefully structured technology licensing agreements and other suitable risk ‘controls’ to prevent a recurrence of the current acrylonitrile saga. Nanjing, however, is not the only part of China in which INEOS is considering a joint venture.

Once Bitten, Twice……….How about my other leg?

Having been bitten once in China you would imagine that the last thing INEOS would consider would be to license its latest ‘world-beating’ technology to a land with such a dubious respect for foreign intellectual property rights. Surely this would simply be inviting a string of copycat plants to spring up a few decades down the line.

In May 2013 INEOS announced that non-binding Heads of Terms had been agreed to build a 50:50 Joint Venture with Bohai Chemical Industry Group Corporation in Tianjin.

And the product? Well it is acrylonitrile of course – 260,000 tonnes of it. INEOS will supply the venture with production ‘know-how’ and its proprietary acrylonitrile process and catalyst technology (the ‘secret ingredient’ I mentioned above).

Sinopec’s Discomfort

Sinopec will be keen to eliminate this ‘forgery’ blemish from its credentials. It wants to be seen as a worthy international partner. As China’s largest refiner the group is willing to consider foreign capital as it restructures its profitable distribution business: 30% of the shares to be taken up by private capital. Clearly the government is very much behind these kind of moves as ways of developing a more ‘diversified ownership economy‘.

Sinopec is considered to be one of the technological leaders in China. This was demonstrated by the announcement that they had made a breakthrough in the exploration and development of shale gas reserves in Chongqing. Therefore it would represent a huge loss of face to lose in a Intellectual Property Rights litigation case in the courts operated by its sole shareholder, the Chinese Government.

China’s Discomfort

China is a huge market and continues to grow. Any global chemicals company simply can’t afford not to be present in the country. It must carefully select its partners, the structures in which it works with them and robustly design risk controls into the agreements and frameworks with its new partners. At the same time China needs foreign know-how to ensure its new businesses can be efficient on the global stage. For it to encourage this inward transfer of intellectual property it must have an efficient and just process to protect intellectual rights. This is especially so now that its own companies are developing their own world beating technologies.

INEOS probably took a calculated risk in the timing of its intellectual property dispute with Sinopec. Five years ago it would have been unthinkable to take a government owned giant to court in Beijing for alleged copying of foreign technology. The climate is changing in China and although it may still be a tough call for a Chinese court to pronounce against one of its own ‘children’ the mere threat of such action may encourage all sides to reach a sensible out-of-court settlement. Perhaps this is where the Swedish arbitration process can help.

This could provide the basis of a very Chinese solution to a very Chinese problem.

Chris Duggleby

Chris Duggleby started his scientific career studying at the Manchester University Medical School. From there he went on to spend over 35 in the chemicals and oil industries which included setting up a polymers research and development group in Geneva, Switzerland for a major international chemicals company. Following an MBA from Warwick University he went on to lead a number of international manufacturing and marketing operations in the Chemicals, Plastics and Oil industries. This included a role as the founding president of the Formosa BP Chemicals joint venture in Taiwan. His work has involved living and working in Europe, Asia, the USA, the Middle East, and Russia. More recently he was invited to take on a senior leadership position in the Audit Department of the BP International Oil Group. Here he used his global change and risk management experience to help the group reshape its management structures and processes following a major environmental disaster in the Gulf of Mexico. He has now retired to focus on writing about risk management. If you are interested in risk management check out his RiskTuition.com or BizChangers.com (management of change) sites. Chris has also just launched the JointVentureRisk.com site.