Stadler Presents Mock-Up Of Tram-Trains For German And Austrian Operators
The title of this post, is the same as that of this article on Railway Gazette.
This is the first paragraph.
A mock-up of the Citylink tram-trains that Stadler is to supply to operators in Karlsruhe, Saarbrücken, Neckar-Alb, Oberösterreich and Salzburg was unveiled at the Betriebshof West depot in Karlsruhe on December 13.
This is the most interesting paragraph.
‘Maximum standardisation and the fact that the order was shared between different operating companies reduces the costs by to up to €1m per vehicle’, said Karlsruhe Mayor Frank Mentrup at the unveiling ceremony.
It shows the value of standardisation and large orders.
Passenger Tunnel Linings At Waterloo Underground Station
This pictures show the cast-iron pedestrian tunnel linings at Waterloo tube station.
The Jubilee Line opened in 1999.
In the last few years, concrete has been able to be 3D-printed, so it can now be produced in different shapes.
All these wall and roof panels on the Elizabeth Line were made by 3D-printing of concrete.
Conclusion
Design has progressed in 25 years.
Concretene Cements Its Future With £8m Funding
The title of this post, is the same as that of this article in The Times.
This is a precis. which explains what Concretene have done.
Concretene combines graphene with concrete to form a “stronger, more sustainable and more cost-effective alternative” to the world’s most-used building material.
The eight million funding is mainly to be used for more tests.
Is Concrete The New Wonder Material?
I once lived in a concrete apartment and although it is now fifty years old, it still looks the same, as it did the day it was built.
Cromwell Tower
Cromwell Tower in The Barbican may have been built to a high specification, but we don’t hear cancer, cladding, damp, fire or mould problems about the City of London’s flagship housing estate.
In the last few years, concrete has been able to be 3D-printed, so it can now be produced in different shapes.
All these wall and roof panels on the Elizabeth Line were made by 3D-printing of concrete.
The technique also seems to be being used on High Speed Two.
These innovative uses of concrete have led to research into the manufacture and use of concrete.
These posts are must-reads.
- Carbon-Neutral Concrete Prototype Wins €100k Architecture Prize For UK Scientists
- UK Cleantech Consortium Awarded Funding For Energy Storage Technology Integrated With Floating Wind
- New HS2 Pilot Project Swaps Steel For Retired Wind Turbine Blades To Reinforce Concrete
- Earth Friendly Concrete
- HS2 Utilising UK-First Pioneering 3D Concrete Printing On Project
- Carbon Capture From Cement Manufacturing Nears Market Readiness
- Mineral Carbonation International Win COP26 Clean Energy Pitch Battle
The number of these posts show how much research is going into cutting the massive amount of carbon dioxide emitted by the concrete industry.
I also feel that some could work together.
Earth Friendly Concrete is a replacement for normal concrete, so perhaps it could be enhanced with graphene, to create an Earth Friendly Concretene.
National Grid Avoids Emissions At London Power Tunnels Substation With Green Grid Technology
The title of this post, is the same as that of this press release from National Grid.
These are the main bullet points.
- £1bn project to rewire London will see the replacement of ageing high-voltage electricity cables and expand network capacity to meet the increasing electricity demand
- A new substation at Bengeworth Road in Lambeth is at the heart of the project and will be built by Linxon using Hitachi Energy’s SF6 free gas insulated switchgear technology in a UK first
- The project forms part of National Grid’s ambition to have no SF6 in electrical assets by 2050
- National Grid is investing a total of £1.3bn every year in electricity network infrastructure needed to help the UK decarbonise and reach net zero emissions
I’ll now expand some of these points.
The London Power Tunnels
This is said about the London Power Tunnels.
National Grid’s London Power Tunnels (LPT) project is a seven-year, £1 billion project, to rewire South London via deep underground tunnels. This vital work to replace ageing high-voltage cables will expand capacity and help keep Londoners connected to secure and reliable electricity supplies.
Note.
- In total, there are 32.5km of 3m diameter tunnels.
- They stretch between Wimbledon and Crayford.
- As part of the project, a new tunnel access shaft, substation and headhouse is being built at Bengeworth Road, Lambeth to connect to our London Power Tunnels (LPT) route.
The London Power Tunnels have their own web site.
Sulphur Hexafluoride
This is said about Sulphur Hexafluoride.
Sulphur Hexafluoride (SF6 ) is used in the electricity industry in substations to prevent short circuits and to keep the network safe and reliable, but it has a high global warming potential. National Grid’s ambition is to reduce its SF6 emissions by 50% by 2030 and remove all SF6 gas from electrical assets by 2050.
Linxon is building Bengeworth Road substation for National Grid and to support the business in its transition to SF6 -free solutions, in a UK first, Hitachi Energy will deliver EconiQ™ 400-kilovolt (kV) gas-insulated switchgear (GIS) and gas-insulated lines (GIL) containing no SF6, to enable the transmission of energy over long distances. Installation is expected to begin in 2023, subject to prior approval of the substation by Lambeth Council.
In the Wikipedia entry for sulphur hexafluoride, this is said.
SF6 is 23,500 times more potent than CO2 as a greenhouse gas but exists in relatively minor concentrations in the atmosphere. Its concentration in Earth’s troposphere reached 10.63 parts per trillion (ppt) in 2021, rising at 0.39 ppt/year.[8] The increase over the prior 40 years was driven in large part by the expanding electric power sector, including fugitive emissions from banks of SF6 gas contained in its medium- and high-voltage switchgear. Uses in magnesium, aluminium, and electronics manufacturing also hastened atmospheric growth.
As I have a lot of experience of HF, my view is that we’re well shot of the SF6, but I’ll be 103, when National Grid eliminate it.
Striking “Bellingham” Bridge Set To Light Up HS2’s Gateway Into Birmingham
The title of this post, is the same as that of this news item from High Speed Two.
These three paragraphs describe the bridge in detail.
HS2 Ltd has revealed designs for the 150-metre section of viaduct as part of the approach to Birmingham’s new Curzon Street Station, including a 25-metre-high truss which will create a new icon on the city’s skyline.
A unique light installation, designed by British artist Liz West, will introduce a dynamic colour palette to the apertures of the steel truss, framing views of the city. Titled Out of the Blue, the proposed artwork will establish the bridge as a stunning feature of the city’s landscape both during the day and at night, when the artwork will come to life.
The Curzon 2 bridge, which has been nicknamed “The Bellingham Bridge” by the team in honour of England superstar and Stourbridge-born Jude Bellingham’s performances at the World Cup, is the tallest structure in the sequence of viaducts and structures that make up the Curzon Street Approaches. These Approaches take HS2 into Birmingham’s new city centre station. The bridge consists of a gently curved truss in weathering steel which carries HS2 over the Victorian brick rail viaduct below.
There are several more visualisations on the High Speed Two web site.
Low Carbon Construction Of Sizewell C Nuclear Power Station
Sizewell C Nuclear Power Station is going to be built on the Suffolk Coast.
Wikipedia says this about the power station’s construction.
The project is expected to commence before 2024, with construction taking between nine and twelve years, depending on developments at the Hinkley Point C nuclear power station, which is also being developed by EDF Energy and which shares major similarities with the Sizewell plant.
It is a massive project and I believe the construction program will be designed to be as low-carbon as possible.
High Speed Two is following the low-carbon route and as an example, this news item on their web site, which is entitled HS2 Completes Largest Ever UK Pour Of Carbon-Reducing Concrete On Euston Station Site, makes all the right noises.
These three paragraphs explain in detail what has been done on the Euston station site.
The team constructing HS2’s new Euston station has undertaken the largest ever UK pour of Earth Friendly Concrete (EFC) – a material that reduces the amount of carbon embedded into the concrete, saving over 76 tonnes of CO2 overall. John F Hunt, working for HS2’s station Construction Partner, Mace Dragados joint venture, completed the 232 m3 concrete pour in early September.
The EFC product, supplied by Capital Concrete, has been used as a foundation slab that will support polymer silos used for future piling works at the north of the Euston station site. Whilst the foundation is temporary, it will be in use for two years, and historically would have been constructed with a more traditional cement-based concrete.
The use of the product on this scale is an important step forward in how new, innovative environmentally sustainable products can be used in construction. It also helps support HS2’s objective of net-zero construction by 2035, and achieve its goal of halving the amount of carbon in the construction of Britain’s new high speed rail line.
Note.
- Ten of these slabs would fill an Olympic swimming pool.
- I first wrote about Earth Friendly Concrete (EFC) in this post called Earth Friendly Concrete.
- EFC is an Australian invention and is based on a geopolymer binder that is made from the chemical activation of two recycled industrial wastes; flyash and slag.
- HS2’s objective of net-zero construction by 2035 is laudable.
- It does appear that this is a trial, but as the slab will be removed in two years, they will be able to examine in detail how it performed.
I hope the Sizewell C project team are following High Speed Two’s lead.
Rail Support For Sizewell C
The Sizewell site has a rail connection and it appears that this will be used to bring in construction materials for the project.
In the January 2023 Edition of Modern Railways, there is an article, which is entitled Rail Set To Support Sizewell C Construction.
It details how sidings will be built to support the construction, with up to four trains per day (tpd), but electrification is not mentioned.
This is surprising to me, as increasingly, big construction projects are being managed to emit as small an amount of carbon as possible. Sizewell C may be an isolated site, but in Sizewell B, it’s got one of the UK’s biggest independent carbon-free electricity generators a couple of hundred metres away.
The writer of the Modern Railways article, thinks an opportunity is being missed.
I feel the following should be done.
- Improve and electrify the East Suffolk Line between Ipswich and Saxmundham Junction.
- Electrify the Aldeburgh Branch Line and the sidings to support the construction or agree to use battery-electric or hydrogen zero-carbon locomotives.
Sizewell C could be a superb demonstration project for low-carbon construction!
Sizewell C Deliveries
Sizewell C will be a massive project and and will require a large number of deliveries, many of which will be heavy.
The roads in the area are congested, so I suspect rail is the preferred method for deliveries.
We already know from the Modern Railways article, that four tpd will shuttle material to a number of sidings close to the site. This is a good start.
Since Sizewell A opened, trains have regularly served the Sizewell site to bring in and take out nuclear material. These occasional trains go via Ipswich and in the last couple of years have generally been hauled by Class 88 electro-diesel locomotives.
It would be reasonable to assume that the Sizewell C sidings will be served in the same manner.
But the route between Westerfield Junction and Ipswich station is becoming increasingly busy with the following services.
- Greater Anglia’s London and Norwich services
- Greater Anglia’s Ipswich and Cambridge services
- Greater Anglia’s Ipswich and Felixstowe services
- Greater Anglia’s Ipswich and Lowestoft services
- Greater Anglia’s Ipswich and Peterborough services
- Freight services serving the Port of Felixstowe, which are expected to increase significantly in forthcoming years.
But the Modern Railways article says this about Saxmundham junction.
Saxmundham junction, where the branch meets the main line, will be relaid on a slightly revised alignment, retaining the existing layout but with full signalling giving three routes from the junction protecting signal on the Down East Suffolk line and two in the Down direction on the bidirectional Up East Suffolk line. Trap points will be installed on the branch to protect the main line, with the exit signal having routes to both running lines.
Does the comprehensive signalling mean that a freight train can enter or leave the Sizewell sidings to or from either the busy Ipswich or the quieter Lowestoft direction in a very safe manner?
I’m no expert on signalling, but I think it does.
- A train coming from the Lowestoft direction needing to enter the sidings would go past Saxmundham junction on the Up line. Once clear of the junction, it would stop and reverse into the branch.
- A train coming from the Ipswich direction needing to enter the sidings would approach in the wrong direction on the Up line and go straight into the branch.
- A train leaving the sidings in the Lowestoft direction would exit from the branch and take the Up line until it became single track. The train would then stop and reverse on to the Down line and take this all the way to Lowestoft.
- A train leaving the sidings in the Ipswich direction would exit from the branch and take the Up line all the way to Ipswich.
There would need to be ability to move the locomotive from one end to the other inside the Sizewell site or perhaps these trains could be run with a locomotive on both ends.
The advantage of being able to run freight trains between Sizewell and Lowestoft becomes obvious, when you look at this Google Map, which shows the Port of Lowestoft.
Note.
- The Inner Harbour of the Port of Lowestoft.
- The East Suffolk Line running East-West to the North of the Inner Harbour.
- Lowestoft station at the East side of the map.
I doubt it would be the most difficult or expensive of projects to build a small freight terminal on the North side of the Inner Harbour.
I suspect that the easiest way to bring the material needed to build the power station to Sizewell would be to do the following.
- Deliver it to the Port of Lowestoft by ship.
- Tranship to a suitable shuttle train for the journey to the Sizewell sidings.
- I estimate that the distance is only about 25 miles and a battery or hydrogen locomotive will surely be available in the UK in the next few years, that will be able to provide the motive power for the return journey.
In The TruckTrain, I wrote about a revolutionary freight concept, that could be ideal for the Sizewell freight shuttle.
In addition, there is no reason, why shuttle trains couldn’t come in from anywhere connected to the East Suffolk Line.
Zero-Carbon Construction
Sizewell C could be the first major construction site in the UK to use electricity rather than diesel simply because of its neighbour.
Conclusion
I shall be following the construction methods at Sizewell C, as I’m fairly sure they will break new ground in the decarbonisation of the Construction industry.
Gondan Shipyard Launches Another Hydrogen-Ready CSOV
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Gondan Shipyard has launched another commissioning service operation vessel (CSOV) it is building for the Norwegian shipowner Edda Wind at its yard in Figueras, Spain.
Increasingly smaller ships are being built hydrogen-ready, so they can be converted to zero-carbon, when the technology is developed.
Over the last couple of years companies like Cummins, JCB and Rolls-Royce mtu have developed diesel engines that can be converted to hydrogen engines.
Cummins talk of agnostic engines, which are identical from the cylinder head gasket down and what is above it, can make the engine, diesel, hydrogen on natural gas powered.
Vattenfall Hails Uncrewed Vessels
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Swedish energy company Vattenfall conducted large-scale seabed surveys with uncrewed surface vessels at several of its offshore wind farms in Denmark, Sweden, and the UK earlier this year.
The article is a must-read and is describes how automation will be used in the future in the offshore wind industry.
Scotland’s Renewable Energy Jackpot: Hydrogen Exports Alone Could Be worth £25 Billion A Year By 2045
The title of this post, is the same as that of this article on the Edinburgh News.
This is the sub-heading.
Scotland is a phenomenally energy rich country. For decades the largest oil-producing nation in the European Union, it is now set to trail-blaze as a leader in renewable energy.
The title and sub-heading say it all for Scotland.
But these words could equally well apply to Anglesey, Cornwall, Devon, East Anglia, Humberside, Liverpool and Morecambe Bays, the Severn Estuary and Pembrokeshire.
We also mustn’t forget the Dogger Bank!
High Risk Of Coeliac Disease In Punjabis. Epidemiological Study In The South Asian And European Populations Of Leicestershire
The title of this post, is the same as that of this peer-reviewed paper on PubMed.gov.
This is the abstract of the paper.
The purpose of this study was to measure the incidence of coeliac disease in different ethnic communities and investigate the hypothesis that the incidence is decreasing in most European countries and the role incomplete retrieval of data may play. In a retrospective study of histologically confirmed cases of coeliac disease between 1975 and 1989 in the City of Leicester, 106 patients with coeliac disease were identified. Of these 86 were European and 20 Asian. The overall incidence of coeliac disease in Europeans was 2.5/10(5)/year (95% CI 2-3.2), in Gujaratis 0.9/10(5)/year (95% CI 0.4-1.8), and in Punjabis 6.9 (95% CI 3.2-12.3). These differences were independent of religious belief. The relative risk to Punjabis compared with Europeans is 2.9 (95% CI 1.5-5.3; chi 2 = 12.5, p < 0.01) and to Gujaratis 8.1 (95% CI 3-22.4; chi 2 = 25; p < 0.001). Gujaratis were at 0.4 risk of Europeans (90% CI 0.2-0.8; chi 2 = 6.7; p < 0.01). The incidence in the urban populations of Leicester was 6/10(5)/year (95% CI 1.3-1.9) which was significantly lower than the 3.2/10(5)/year (95% CI 2.7-3.8; chi 2 = 5.6; p < 0.001) in surrounding rural areas. This study shows that the incidence of coeliac disease in Punjabis (Sikhs, Hindus and Muslims) is 8 times higher than in Gujaratis (Hindus and Muslims) and 4 times higher than in Europeans in Leicester.
I find the last sentence in particular very significant.
I’m no medic, but I think it is reasonable to assume, that in a particular community for every diagnosed coeliac, there will be several undiagnosed coeliacs out there.
In this overview of coeliac disease on the NHS web site, this is said about the incidence of coeliac disease.
Coeliac disease is a condition that affects at least 1 in every 100 people in the UK.
But some experts think this may be underestimated because milder cases may go undiagnosed or be misdiagnosed as other digestive conditions, such as irritable bowel syndrome (IBS).
Reported cases of coeliac disease are around 3 times higher in women than men.
The one-in-100 figure is often used in web pages in European countries or Australia, Canada and the United States, so I’ll go along with that.
So does that mean that Punjabis living in Leicester, have a one-in-twenty-five likelihood of being coeliac?
Whether you have been diagnosed though, is a matter of pure luck.
I had been having gut problems for years and then one Autumn, I didn’t see my GP, but a very elderly locum, who as I had recently had my fiftieth birthday, gave me a present of my first blood test.
It turned out my B12 levels were very low and after several months of B12 injections, which made little difference to my B12, my GP decided to send me to a consultant at Addenbrooke’s Hospital in Cambridge.
My appointment was on a Monday morning and consultant took about ten minutes to ask a few questions, after which he said they would take a few bloods.
On the Wednesday morning, I received a letter that said, that I was probably suffering from coeliac disease and this would be confirmed by endoscopy.
Was I diagnosed solely by analysis of my blood? This was in 1997, which is after the date of the Leicester study.
Two endoscopies without sedative or anaesthetic were performed and I was confirmed as coeliac.
The first was performed by Dr. Richard Hardwick and the second by Dr. Rebecca Fitzgerald.
Both doctors feature in this story on the Cambridge University Hospitals web site, which is entitled Familial Gastric Cancer – Case Study.
My problems have been minor compared to the two sisters in the story.
My luck had been good and I recommend that everyone who feels they could be coeliac should get themselves tested.
Cases Of Covid-19 In Leicestershire
This article on the Leicester Mercury is entitled 11 Areas Of Leicestershire Have Among Worst Infection Rates in the UK.
In Coeliac Disease: Can We Avert The Impending Epidemic In India?, I started like this.
The title of this post, is the same as that of this article on the Indian Journal Of Research Medicine.
With the high levels of COVID-19 in Leicester and an Indian population who make up 28.3 % of the population of the city, I was searching the internet to see if there was any connection between those of Indian heritage and coeliac disease.
I know you should not try to prove a theory. But as a coeliac, I’m very interested to see how the millions of diagnosed coeliacs on a gluten-free diet like me, are faring in this pandemic.
I then talk about some extracts from the Indian research.
In a section entitled, which is entitled All Wheats Are Not Equal, I say this.
The other dimension to this problem is that not all wheat is alike when it comes to inducing celiac disease. The ancient or diploid wheats (e.g. Triticum monococcum) are poorly antigenic, while the modern hexaploid wheats e.g. Triticum aestivum) have highly antigenic glutens, more capable of inducing celiac disease in India, for centuries, grew diploid and later tetraploid wheat which is less antigenic, while hexaploid wheat used in making bread is recently introduced. Thus a change back to older varieties of wheat may have public health consequences.
So did all these factors come together to create the high levels of Covid-19 in Leicestershire?
Conclusion
I am getting bored with saying this. More research needs to be done!
The Anonymous Widower 