The Anonymous Widower

Fresh Air Fuels Global

Because of its history, South Africa has developed technology to create biofuels, as alternatives to diesel.

If you read the Wikipedia entry for South African chemical company; SASOL, you’ll see the things that South African chemists did, to get round the sanctions imposed because of apartheid.

SASOL has advanced the Fischer–Tropsch process and uses it to produce diesel and other fossil fuels.

Note that Velocys have also developed this process to make sustainable aviation fuel in the UK.

Fresh Air Fuels Global have a page on the G-volution web site.

The page is dominated by an infographic, which shows organic waste (animals and plants) going into an anaerobic digester, which produces.

  • Biogas, which is used to create heat, electricity, CO2, biomethane, fuel and gas for the grid.
  • Digestate, which is used for fertiliser and livestock bedding.

It almost sounds too good to be true.

This is the mission statement below the graphic.

Our mission: To be the most reliable producer of energy secure low carbon fuels.

There is then these paragraphs, which explain the relationship between G-volution and Fresh Air Fuels Global.

Global energy security concerns and climate targets necessitate countries and businesses to transition away from high-cost fossil fuels towards low-carbon alternatives.

Over more than a decade, Cape Advance Engineering South Africa (CAE) have been developing an incredibly cost-effective Anaerobic Digestion (AD) technology, which has proven to generate renewable energy from organic waste in the form of gas, heat and electricity that is cost competitive with fossil fuels.

G-Volution has partnered with CAE to form Fresh Air Fuels Global (FAFG), with aim of introducing the CAE technology to international markets that the G-Volution already have a foothold, constructing AD plants and creating carbon neutral biofuel from waste that can be used in dual fuel engines.

In Grand Central DMU To Be Used For Dual-Fuel Trial, I describe how G-volution’s dual fuel technology has been applied to one of Grand Central’s Class 180 train.

This picture I took after travelling in a Grand Central Class 180 train, shows that G-volution don’t hide their light under a bushel.

Note.

  1. This train appears to run on diesel and liquified natural gas.
  2. This G-volution video gives more details.

This clip from the video, shows the possible fuels.

Note.

  1. Can the dual fuel engine use biodiesel or HVO instead of diesel?
  2. It looks like the Fresh Air Fuels Global process can produce biomethane, which could be liquified as LNG.
  3. Hydrogen is the only true zero-carbon secondary fuel.
  4. There is a Wikipedia entry for ethanol fuel.
  5. Hydrous ethanol is about 95% ethanol and 5% water and is used as a fuel in Brazil in petrol cars.
  6. There is a Wikipedia entry for the use of methanol as fuel.

Have G-volution got access to the technology to both reduce the fuel consumption of diesel engines and run them on zero-carbon fuel?

UK Trains That Have Cummins QSK-19 R Diesel Engines

Grand Central’s Class 180 trains have a Cummins QSK-19 R diesel engine.

All these trains have the same engine.

  • 14 – Class 180 trains
  • 51 – Class 185 trains
  • 34 – Class 220 trains
  • 44 – Class 221 trains
  • 27 – Class 222 trains

In addition, Class 175 trains have a different engine made by Cummins.

Conclusion

If G-volution’s technology can be made to work successfully, it could play a large part in the decarbonisation of UK passenger trains.

September 2, 2023 Posted by | Transport/Travel | , , , , , , , , , , , , , , , | Leave a comment

On Track For A Low Carbon Energy Future – Centrica Signs Corporate Power Deal With Deutsche Bahn

The title of this post, is the same as that of this press release from Centrica.

These two paragraphs outline the deal.

Centrica Energy Trading has signed a two-year corporate power purchase agreement (PPA) with Deutsche Bahn, Germany’s national railway company.

Starting January 2024, Centrica will offtake power from three onshore wind farms with an installed capacity of 60.7 MW. The sites, developed by Prokon AG in Germany, have a total of 45 turbines and will provide approximately 70GWh of renewable electricity annually to Deutsche Bahn.

Sounds like good business to me! You buy electricity from three German onshore wind farms and flog it to a large German company and probably get an appropriate commission in Euros.

September 1, 2023 Posted by | Energy | , , , | 1 Comment

Support For Offshore Wind In New Jersey Drops, Industry Points To Effect Of Misinformation

The title of this post, is the same as that of this article on offshoreWIND.biz.

This is the sub-heading.

The number of New Jersey residents who support offshore wind fell by more than 20 per cent since 2019, from 76 per cent four years ago to just over half (54 per cent) now, and the number of those opposing offshore wind has climbed from 15 per cent to 40 per cent since 2019.

These are the first two paragraphs.

This is according to the results of a poll performed earlier this month by the Monmouth University Polling Institute, which found that 40 per cent of New Jerseyans think offshore wind farms could hurt the state’s summer tourism economy and 45 per cent see a connection between wind energy development and the recent beached whale phenomenon in New Jersey.

Furthermore, only 22 per cent expect the offshore wind industry to create a lot of jobs for the state, with most (55 per cent) saying that a few new jobs would be created and 15 per cent expecting that the industry would not create any new jobs.

It would appear that much of the drop in support has been down to Republicans.

The article is definitely a must-read.

September 1, 2023 Posted by | Energy | , , , , | Leave a comment

Sun-Powered Rooftops Could Generate Two Nukes Of Electricity…If England Follows Peterborough’s Lead

The title of this post, is the same as that of this press release from the Energy and Climate Intelligence Unit.

This is the sub-heading.

Household and commercial rooftop solar could save £450 million on bills.

These are the first two paragraphs.

If all English constituencies matched Peterborough, which has the highest proportion of homes with rooftop solar photovoltaic (PV) panels, the country’s solar capacity could be increased by around 7GW (gigawatts), new analysis from the Energy and Climate Intelligence Unit (ECIU) has found.

The nuclear power station Hinkley C will have a capacity of around 3.2GW, so the capacity rooftop solar on domestic properties could be more than the capacity of two new nuclear power stations.

It is an interesting thought.

I should say, that I have rooftop solar and it generates more electricity, than I ever thought it would.

I find this an interesting paragraph.

In addition, industry analysis shows that the capacity potential of solar on the roofs of commercial properties, such as warehouses, is 15GW. Combined, Peterborough levels of domestic solar and industry estimates for commercial solar could deliver an additional 22GW capacity, which is the equivalent of the capacity of almost 7 nuclear power stations. However, industry has reported that it is currently difficult to get commercial roof top developments connected to the grid, with waits up to a decade or more, and it can be costly.

22 GW is a lot of electricity, but I do feel, that with innovation that probably uses energy storage devices, the connection problems can be solved.

In Denny Bros Completes Solar Scheme At Bury St Edmunds Factory, I wrote about what one company in Suffolk has done with their roofs.

The technology already exists, so how long will it be before a company offers an electrolyser to convert excess electricity into hydrogen, which is used for transport, heating or an industrial process?

In Government Hydrogen Boost To Help Power Kimberly-Clark Towards 100% Green Energy Target, I talked about how Kimberly-Clark are partially switching from natural gas to green hydrogen.

September 1, 2023 Posted by | Energy, Energy Storage, Hydrogen | , , , | 8 Comments

TransPennine Express To Stop Using Loco-Hauled Push-Pull Trains In December

The title of this post, is the same as that of this article on Railway Gazette.

This is the sub-heading.

TransPennine Express has confirmed that it will cease using its push-pull sets of Class 68 locomotives and MkVa coaches, previously designated Nova 3 sets, from the December 2023 timetable change.

These are my thoughts.

The Nova 3 Trains

Currently, the Nova 3 trains are made up from the following.

Note.

  1. There have been complaints about the noise of the Class 68 locomotives at Scarborough and also at Marylebone with Chiltern Railways.
  2. The Class 68 locomotives could be switched to freight duties.
  3. The coaches are capable of 125 mph.
  4. A maximum of thirteen sets can be created.
  5. I suspect CAF wouldn’t object to being asked to build some more Mark 5a coaches and driving van trailers.
  6. The current fleet has a spare locomotive and a spare driving van trailer to allow for servicing.

All locomotives and coaches are a maximum of seven years old, so will have plenty of life left.

The Class 93 Locomotive

Rail Operations Group have ordered ten Class 93 locomotives, with twenty options, which have an impressive specification.

  • Built by Stadler in Valencia.
  • Same family as a Class 68 and 88 locomotive.
  • Electric, diesel and battery power
  • 110 mph operating speed
  • Ability to pull passenger and freight trains.
  • Delivery scheduled for 2023.

I believe that if the Class 68 diesel locomotive of a Nova 3 train, were to be replaced with a Class 93 locomotive, a very useful train would be created.

  • It would be ten mph faster, than a Nova 3 train.
  • It could use the diesel engine and the batteries to bridge gaps in electrification.
  • By adding extra carriages it could be tailored to the needs of a route.
  • In Vegetable Oil Fuelling Chiltern Railways Trains In UK First, I discuss how it might be possible to run all these locomotives on HVO to cut emissions.
  • It could be quieter.

Could it be a simple way to reduce carbon emissions on a route?

The Successor To The Class 93 Locomotive

Stadler keep innovating in their designs for locomotives and are already building hydrogen-powered multiple units.

I can see Stadler coming up with a hydrogen-powered locomotive, with the following specification.

  • In the same family as Class 68, 88 and 93 locomotives.
  • Ability to do everything that Class 68, 88 and 93 locomotives can do.
  • Ability to use 25 KVAC overhead electrification, where it exists.
  • Ability to be able to be fitted with third-rail equipment, so it can use 750 VDC third-rail electrification, where it exists.
  • At least a 110 mph operating speed.
  • Range of at least 200 miles on hydrogen.

Stadler would sell a lot of these locomotives to decarbonise railways all over the world.

Possible Routes

These are possible routes for a rake of Mark 5a coaches hauled by a Class 93 locomotive or its zero-carbon successor.

Hull Trains

Consider.

  • Hull Trains is an open access operator.
  • Hull Trains currently have a fleet of five Class 802 trains, each of which have five-cars.
  • A Class 93 locomotive has a power of 900 kW on diesel, whereas the Class 802 train has 2100 kW.
  • The Class 802 train has nearly ten percent more capacity.
  • In Ten-Car Hull Trains, I saw two Class 802 trains working as a pair. Does this indicate they have a capacity problem?
  • Between Hull and the East Coast Main Line is only 36.1 miles and  isn’t very challenging and I suspect could probably be easily handled by a Class 93-hauled rake of Mark 5a coaches.
  • Adding extra coaches would not be difficult and would probably be less costly than with the more complex Class 802 trains.
  • Hull Trains need to have a plan to decarbonise.
  • HVO could be used to cut down emissions.

A Class 93-hauled rake of Mark 5a coaches could be an intermediate step  to full decarbonisation with a hydrogen locomotive.

Would other operators of Class 802 trains like to increase their fleets, by adding Hull Trains’s five Class 802 trains?

TransPennine Express

Consider.

  • TransPennine Express currently have four different fleets of trains, so it must cause problems with the allocation of drivers.
  • The Class 397 trains are confined to the West Coast Main Line.
  • So that leaves the bi-mode Class 802 trains and the diesel Class 185 trains to work the TransPennine routes.

The Wikipedia entry for the Class 802 train, gives more details of the plans for the Class 802 trains.

During October 2021, it was announced that TransPennine Express, Hitachi, and Angel Trains had agreed to convert one of the former’s Nova 1 trainsets into a battery hybrid train on a trial basis with the aim of supporting the technology’s further development. If successful, Hitachi and Angel Trains have proposed the retrofitting of the entire fleet. In January 2022, reports emerged that the Nova 1 fleet was operating under diesel power even when operating on entirely electrified sections of the East Coast Main Line on account of the insufficient power supplies present along the line; national railway infrastructure owner Network Rail is reportedly set to complete upgrades to the power supplies within two years.

The fleet is also set to benefit from the rollout of electrification under the Transpennine route upgrade scheme. The company’s management has noted that, in the event of largescale electrification being funded and implemented, the Class 802s could have some of their engines removed to reduce roughly 15% of their weight and thus raise their efficiency. Furthermore, Leo Goodwin, TPE’s managing director, has observed that while the Class 802s have an initial maximum speed of 125 mph (201 km/h), they have the capability of being modified for operating at 140 mph (230 km/h) if infrastructure upgrades were to permit such speeds at a future date.

Could an augmented fleet of battery-electric Class 802 trains handle the bulk of the TransPennine routes, with the shorter and unelectrified ones still being handled by the Class 185 trains?

These shorter routes are.

  • Leeds and Huddersfield
  • Manchester Piccadilly and Huddersfield
  • York and Scarborough

Plans only exist to electrify Leeds and Huddersfield.

I suspect a few more battery-electric Class 802 trains would be needed.

Great Western Railway

Could a Class 93-hauled rake of Mark 5a coaches be used as a replacement for the GWR Castles or short-formation InterCity125s?

  • They both have four passenger coaches.
  • They are both 125 mph trains.
  • A Class 68 locomotive could be used on routes without electrification.
  • HVO could be used to cut down emissions.
  • The Mark 5a coaches would probably be quieter, as they only have one diesel engine.

A Class 93-hauled rake of Mark 5a coaches could be an intermediate step  to full decarbonisation with a hydrogen locomotive.

Alternatively, five-car Class 802 trains could be used as replacements for GWR Castles.

Great Western Railway also have the problem of decarbonising services between Bristol/Gloucester and Weymouth/Southampton/Portsmouth.

Great Western Railway look like they’re needing some innovative thinking.

I also suspect a few more battery-electric Class 802 trains would be needed for other routes.

Transport For Wales Rail

Transport for Wales Rail run a Premier Service between Holyhead and Cardiff using Class 67 locomotives and Mark 4 coaches.

According to the Wikipedia entry for Transport for Wales Rail, they have seven sets of 4/5 coaches to run this service.

If Transport for Wales Rail wanted to decarbonise this route, they would need to replace the locomotives for a zero-carbon unit.

Perhaps, their best solution, would be to wait until a suitable hydrogen-powered locomotive is available and buy seven rakes of new coaches with driving van trailers.

Grand Union

Grand Union has a detailed Wikipedia entry, where this is the first paragraph.

Grand Union is a prospective open access operator who are proposing to operate train services in the United Kingdom from England to Wales and Scotland. Grand Union is headed by Ian Yeowart, who founded previous open access operators Alliance Rail Holdings and Grand Central before selling both to Arriva.

That seems a sound foundation.

  • They have permission to run trains between Paddington and Carmarthen starting in December 2024.
  • They have also applied to run trains between Euston and Stirling.
  • They are now backed by Spanish companies; Serena Industrial Partners and Renfe.
  • They are proposing to use nine Mark 4 coaches hauled by Class 93 locomotives.

Consider.

  • CAF has a factory in Wales.
  • CAF has sold trains to Transport for Wales.
  • The Mark 5a coaches will definitely be available by December 2024.
  • Mark 5a coaches could easily be arranged as a rake of eight coaches and a driving van trailer.
  • Grand Union is backed by Spanish companies.

I wouldn’t be surprised if Grand Union were to use sets of CAF-built Mark 5a coaches for their Carmarthen service. And later for their Stirling service.

A Class 93-hauled rake of Mark 5a coaches could be an intermediate step  to full decarbonisation with a hydrogen locomotive.

Grand Central

Consider.

  • Grand Central is another open access operator.
  • Grand Central has a mixed fleet of twelve five-car diesel trains.
  • These trains run under electrification on the East Coast Main Line.
  • According to the Wikipedia entry for Grand Central trains, they have plans for expansion across the North and to and from London.
  • Grand Central need to have a plan to decarbonise.
  • HVO could be used to cut down emissions.

A Class 93-hauled rake of Mark 5a coaches could be an intermediate step  to full decarbonisation with a hydrogen locomotive.

South Western Railway

South Western Railway have an excellent fleet of new or nearly new trains, with the exception of the diesel Class 158 and Class 159 trains, that work services between Waterloo and Exeter trains via Basingstoke and Salisbury.

  • Waterloo and Exeter is 172 miles.
  • Only the 47.7 miles between Waterloo and Basingstoke is electrified with 750 VDC third-rail electrification.
  • Train lengths vary between five and eight cars.
  • The current trains date from around 1990 and must need replacing soon.

I wouldn’t be surprised that if after a rebranding with new trains, this could be a popular route.

A version of Hitachi’s ubiquitous bi-mode Class 802 could be used.

But.

  • They would need to be ordered and built.
  • The third-rail gear, would need to be developed and tested.
  • Passengers would be travelling for over two and a half hours with underfloor diesel engines.

An alternative could be a Class 68-hauled rake of Mark 5a coaches.

  • These trains would be available after release from TransPennine Express.
  • They would run in TransPennine Express formation.
  • Length could be adjusted by adding or removing coaches, if required.
  • The noise is all in the locomotive, which is isolated from the passengers.

At some point in the future, the route could be decarbonised by swapping the locomotive for a hydrogen-electric locomotive with the ability to handle third-rail electrification.

ScotRail

ScotRail have a similar problem to Great Western Railway with their short-formation InterCity125s.

  • They have 52 Class 43 locomotives and 120 Mark 3 coaches, which is probably enough for 24 trains.
  • Scotland has substantial amounts of electrification.
  • I feel that a Class 68-hauled rake of Mark 5a coaches would be a more than adequate replacement.
  • Class 93 locomotives could be used where routes are partially electrified.
  • Scotland is not going to be short of green hydrogen.

When a suitable hydrogen-electric locomotive is available, these trains can be decarbonised.

CrossCountry

CrossCountry have a fleet consisting of the following trains.

  • 5 – 2+7 InterCity125 trains
  • 7 – two-car Class 170 trains
  • 22 – three-car Class 170 trains
  • 34 – four-car Class 220 trains
  • 4 – four-car Class 221 trains
  • 20 – five-car Class 221 trains

Note.

  1. The fleet is all diesel.
  2. I’ll ignore the Class 170 trains in this analysis.
  3. The Class 220 and 221 trains often work in pairs to provide the required capacity.

So how could these trains be decarbonised?

  • The InterCity125s and the Class 220 and 221 trains could be replaced by a locomotive-hauled rake of Mark 5a coaches of an appropriate length.
  • Motive power could be provided by an appropriate Class 68 or 93 locomotive.

When a suitable hydrogen-electric locomotive is available, these trains can be fully decarbonised.

Decarbonisation Of UK Main Line Services

It is generally assumed that the railways of the UK will need to fully decarbonise if the UK and the constituent nations are going to meet their decarbonisation targets.

I believe that my analysis shows that decarbonisation of main line passenger services can be achieved by the purchase of two types of trains.

  • Five-car bi-mode Class 802 trains or similar.
  • Locomotive-hauled rakes of Mark 5a coaches of an appropriate length.

Note.

  1. The Class 802 trains would be mainly to augment existing Hitachi fleets.
  2. Some Class 802 trains would be fitted with batteries instead of diesel generators to handle gaps in the electrification.
  3. The rakes of coaches would be powered by an appropriate locomotive.
  4. The lengths of the rakes of coaches would be adjusted to meet the demand of each service.

Initially, the following locomotives would be used.

  • Class 68 locomotives would be used on unelectrified lines.
  • Class 93 locomotives would be used on full or partially electrified lines.

When the hydrogen-electric locomotives become available, these would take over the routes, which couldn’t be decarbonised by full electrification or by using a Class 93 locomotive.

 

 

 

 

August 31, 2023 Posted by | Hydrogen, Transport/Travel | , , , , , , , , , , , , , , , , , , , , , , | 7 Comments

Vegetable Oil Fuelling Chiltern Railways Trains In UK First

The title of this post, is the same as that of this article on the BBC.

This is the sub-heading.

Passenger trains are being fuelled by vegetable oil for the first time in the UK, a train operator has said.

These are the first two paragraphs.

Chiltern Railways began using hydrotreated vegetable oil (HVO) to power some of its fleet on Thursday.

HVO is made mostly of used cooking oils and can reduce greenhouse gas emissions by up to 90%, compared to diesel.

Note.

  1. There are thirty-four Class 68 locomotives in the UK and they are powered by Caterpillar diesel engines.
  2. There are also ten Class 88 locomotives in the UK and thirty Class 93 locomotives on order for the UK.

As the Class 88 and Class 93 locomotives , are in the same family as the Class 68 locomotive and all have Caterpillar diesel engines, I feel it is reasonable to assume that all these locomotives can run on HVO.

August 30, 2023 Posted by | Transport/Travel | , , , , | 2 Comments

Amprion Reveals Energy Corridor Project To Bring 8 GW of Offshore Wind To North Rhine-Westphalia

The title of this post, is the same as that of this article on offshoreWIND.biz.

This is the sub-heading.

Amprion Offshore has started working on an energy corridor project that would bring electricity produced by up to 8 GW of offshore wind farms in the North Sea directly to the German state of North Rhine-Westphalia.

This is the first paragraph.

Named Windader West, the energy corridor involves building four offshore grid connection systems that would use the new-generation 2 GW offshore grid technology. Each of the four connections (NOR-15-1, NOR-17-1, NOR-19-1 and NOR-21-1) would have a transmission capacity of 2 GW and, together, the grid connections would transmit enough electricity to cover the energy needs of eight million households in North Rhine-Westphalia.

The linked article has an excellent large scale map.

What Are The UK Doing?

There is a Wikipedia entry for Eastern HVDC, where these are the opening paragraphs.

Eastern HVDC and Eastern HVDC projects are the names used by Ofgem for two planned HVDC submarine power cables from the East coast of Scotland to Northeast England to strengthen the National Grid. The two links combined will deliver 4 GW of renewable energy from Scottish wind farms to England.

Ofgem state that “At an estimated cost of £3.4 billion for the two links, the Eastern HVDC projects would be the largest electricity transmission investment project in the recent history of Great Britain.”

The two links are called.

Note.

  1. SEGL1 will run from Torness in Southeast Scotland to Hawthorn Pit substation in Northeast England.
  2. EGL2 will run from Sandford Bay, at Peterhead in Scotland, to the Drax Power Station in Yorkshire, England.
  3. Both links have a capacity of 2 MW and the DC voltage will be +/-525 kV.

National Grid are also developing Eastern Green Links 3 and 4 and this is the web site.

These paragraphs describe EGL3 and EGL4.

The EGL 3 project will be a new offshore High Voltage Direct Current (HVDC) electrical link from Peterhead to the south Lincolnshire area.

EGL4 will be a new offshore HVDC electrical link from east Scotland, also to the south Lincolnshire area.

Where offshore projects such as these connect with the land, we also have to build onshore infrastructure to enable the clean energy to be transported, to homes and businesses. The onshore infrastructure required for each of these projects will include new converter stations and substations (in both Scotland and England), as well as underground cables to connect everything together.

Together, these projects will transfer 4GW of electricity between Scotland and England. This means that once operational, these projects will provide enough energy to power around 3 million homes.

Note.

  1. As with the German cables, each carries 2 MW.
  2. Consultation for EGL3 and EGL4  starts in early 2024.
  3. Both cables terminate in South Lincolnshire.

In The Lincolnshire Wind Powerhouse, I publish this map of the wind farms in the South of Lincolnshire.

Note.

  1. The completed Hornsea wind farm will be over 6 MW.
  2. The future of Norfolk Vanguard is uncertain.
  3. These wind farms total up to 13524 MW, but without Norfolk Vanguard the total is 11724 MW.
  4. According to Wikipedia, the Viking Link to Denmark will open on the 1st of January 2024.

I wrote about the Viking Link in Work Begins On New Substation For World’s Longest Electricity Cable Between Denmark and Lincolnshire.

The German And UK Cables Compared

Consider.

  • Both have 4 x 2 MW capacity.
  • SEGL1 and EGL2 have a cost of £3.4 billion.
  • The four German cables are quoted at a total of €16-18 billion here.
  • The first two UK cables have planned completion dates of 2027 and 2029.
  • German completion dates are given as 2032-2036.

This leads me to this conclusion.

Building interconnectors in the sea is quicker and more affordable than building them on land.

 

 

 

August 30, 2023 Posted by | Energy | , , , , , , , | 1 Comment

Can You Drive A Non-ULEZ Compliant Car Along the M25 In Essex?

This Google Map shows the M25, as it curves through South-East Essex.

Note.

  1. The A12 goes roughly SW-NE across the map.
  2. It is crossed by the M25.
  3. The London-Essex boundary is shown by a red dotted line.
  4. The dotted line is not always on the Essex side of the M25.

If you drove a non-ULEZ compliant car Along the M25, would you be subject to a penalty?

August 29, 2023 Posted by | Transport/Travel | | 3 Comments

Canary Wharf Move Means Expansion For Drug Trials Operator

The title of this post, is the same as that of this article on The Times.

These three paragraphs outline the story.

An Aim-listed company that tests infectious and respiratory disease products on volunteers is preparing to move its operations to Canary Wharf.

Amid booming demand for its services, hVIVO, which infects volunteers with safe doses of virus agents, then quarantines them before testing the efficacy of vaccines and antivirals — in so-called human challenge trials — will move from its clinics in Whitechapel, east London, to a new larger facility near by owned by Canary Wharf Group early next year.

Canary Wharf is aiming to attract businesses from the life sciences and health sectors in a drive to become a sciences hub and less reliant on the financial services industry.

This is the second story about life science companies moving to Canary Wharf after Canary Wharf Boosts Its Science Ambitions.

I have my thoughts.

Canary Wharf Is A Transport Hub

Canary Wharf is served by the following transport links.

  • Buses
  • Docklands Light Railway
  • Elizabeth Line
  • Jubilee Line
  • Thames Clipper

It is very well-connected, which means that staff and volunteers can get there easily.

Canary Wharf Is A Leisure Destination

Canary Wharf is very much more than a collection of expensive offices.

There are shops, bars, restaurants, a museum and a cinema complex.

There Is A Shortage Of Lab-Rats

I volunteer for medical research and regularly, I’m called in to help with the recruitment of more volunteers.

I suspect, that many would prefer to volunteer at Canary Wharf, rather than some parts of London.

Conclusion

I suspect that we’ll see an expansion of medical research of all kinds at Canary Wharf.

August 29, 2023 Posted by | Health, Transport/Travel | , , , , , , , , , , , | Leave a comment

How Bradford Residents Can Share Hydrogen Power Site Views

The title of this post, is the same as that of this article on the Bradford Telegraph and Argus.

These paragraphs give details of the consultation.

Developers will be holding their main consultation event will be held at Ingus Hall at Kala Sangam, St Peters House.

It will take place between 3pm to 7pm on Tuesday, September.

A further event specifically for local residents living near Bowling Back Lane is being held on Monday, September 11.

This press release from Hygen, which is entitled Bradford Hydrogen Production Facility Shortlisted For Government Funding, gives more details about the project.

I shall be going.

August 28, 2023 Posted by | Energy, Hydrogen, Transport/Travel | , , , | Leave a comment

« Previous Entries     Next Entries »