Are Bodies Cleverer Than We Think?
Because, I had a serious stroke thirteen years ago, I am on Warfarin for life to thin my blood, so that I don’t have another stroke.
INR is short for International Normalized Ratio, which diverts on Wikipedia to the Wikipedia entry for Prothrombin Time, where these is the first two paragraphs.
The prothrombin time (PT) – along with its derived measures of prothrombin ratio (PR) and international normalized ratio (INR) – is an assay for evaluating the extrinsic pathway and common pathway of coagulation. This blood test is also called protime INR and PT/INR. They are used to determine the clotting tendency of blood, in such things as the measure of warfarin dosage, liver damage, and vitamin K status. PT measures the following coagulation factors: I (fibrinogen), II (prothrombin), V (proaccelerin), VII (proconvertin), and X (Stuart–Prower factor).
PT is often used in conjunction with the activated partial thromboplastin time (aPTT) which measures the intrinsic pathway and common pathway of coagulation.
That is very technical and complicated, but what does it mean practically?
Those on Warfarin to thin their blood are generally supposed to keep their INR between 2 and 3.
I test the INR myself with a Coaguchek meter from Roche and have done so for nearly ten years.
Every, so often, I discuss the level of Warfarin with my GP and we adjust the level accordingly.
Typically, NHS patients on Warfarin have their INR checked every few weeks.
But as I am a Graduate Control Engineer, who has written control strategies for chemical plants, I feel this checking every few weeks, is not enough.
At times, I have checked at a higher frequency.
Four times, I have had minor operations.With the first operation, I agreed with the surgeon, that I would lower my INR to 2.1 for the operation and raise it back to 2.5 after the operation.
It all went well and I repeated the exercise for the three other minor operations.
I have checked daily since about the beginning of April, before which, I generally tested on Mondays and Thursdays.
There were two reasons for the change of frequency.
- Regular storms seemed to roll in and for some reason, they tended to lower my INR.
- I also wrote Do Thunderstorms Cause Strokes?, after reading a paper from the United States about the relationship between thunderstorms and strokes.
So I took the prudent decision to test my INR daily.
Then on the 30th May, disaster struck.
My Coaguchek meter found out it had the wrong firmware and Roche implored me to change it.
But I am not a hardware person, so I was left unable to check my INR.
Luckily, I remembered a story from the 1960s about one of ICI’s chemical plants.
This plant was one of the first fully-digitally controlled plants controlled by an IBM 1800 computer.
It also ran 24 hours a day, seven days week.
So in the middle of the night, the plant operators got out all the computer printouts, which showed how the computer had set all the valves and controllers.
One-by-one they reset all the controls on the plant to the settings that the computer had used for the last few days.
Using, this computer-assisted mode the plant was kept running, until engineers could fix the computer.
On the 30th May, my INR was a little bit high at 2.9 and I was using a dosage of Warfarin of 4 mg. one day and 3.5 mg. the next.
The strange dosage was one, that I know from experiment over time produces an INR of 2.5.
My actual average Warfarin dose was 3.73 over the last thirty days and my INR, as measured most days was 2.6 over the same period.
So, I did what the engineers did on the chemical plant, kept calm and carried on.
Yesterday my son fixed the Coaguchek meter and I was able to take my first reading for 17 days. It was 2.7 and only 0.1 higher than the 30-day average on the 30th May.
I had successfully jumped the gap in the readings.
Conclusion
Most systems have an equilibrium. Make sure you know it.
Wood To Optimise Hydrogen Storage For Centrica’s Rough Field
The title of this post, is the same as that of this press release from Wood plc.
These are the first three paragraphs.
Wood, a global leader in consulting and engineering, has been awarded a contract by Centrica Energy Storage (CES) for the redevelopment of the UK’s Rough field in readiness for future hydrogen storage.
The Rough reservoir, located in the Southern North Sea, has been used to store natural gas safely for over thirty years and has the potential to provide over half of the UK’s hydrogen storage requirements.
The front-end engineering design (FEED) contract, awarded to Wood, entails new pipelines, a new unmanned installation, as well as onshore injection facilities at the Easington Gas Terminal, is the first step in making the field hydrogen ready.
Offshore Magazine has this article about the deal, which is entitled Wood Assessing Hydrogen Storage Needs For North Sea Rough Reservoir.
This is a paragraph from the Offshore Magazine article.
Centrica aims to position the Rough Field as the world’s largest long-duration hydrogen storage facility, although FID on the redevelopment project would depend on government support.
It would be a very important project.
Why would Centrica be planning for this massive increase in hydrogen storage?
There could only be one reason.
There is going to be a massive increase in hydrogen production and use.
In Where’s The Plan, Rishi?, I laid out what I believe will happen in the next few years.
- In RWE Goes For An Additional 10 GW Of Offshore Wind In UK Waters In 2030, I detailed how RWE intended to add an extra 10 GW of offshore wind to the seas around the UK.
- As our current offshore wind capacity is around 15 GW, so another 10 GW would surely be very welcome.
- The Germans will develop H2ercules, which is their massive project to create a hydrogen network to bring hydrogen to Southern Germany.
- A hydrogen hub at Wilhelmshaven is being built by Uniper to feed H2ercules with green hydrogen from around the world.
But would it not be better, if instead of feeding H2ercules with hydrogen from around the world, some came from the UK, a few hundred miles across the North Sea?
- RWE are developing the 3 GW Dogger Bank South wind farm, which is not in the best place for a cable to the UK. So could this wind farm have an offshore electrolyser and send the hydrogen to Wilhelmshaven, by pipeline or coastal tanker?
- RWE are also developing the 4.2 GW Norfolk cluster of wind farms to the North-East of Great Yarmouth. It might be better, if the output of these wind farms took a hydrogen route to Wilhelmshaven.
- I also believe that a third offshore electrolyser might be situated North of the Wash to bring more hydrogen to Germany.
- Hydrogen could also be sent from the Rough facility to Wilhelmshaven.
The coastal tanker route gives flexibility, so green hydrogen could be sent as required to the UK mainland.
Rishi Sunak’s Manifesto Speech – June 11
I also reported on Rishi Sunak’s Manifesto Speech, which he made on June 11th. This is an extract
This document on the Policy Mogul web site is entitled Rishi Sunak – Conservative Party Manifesto Speech – Jun 11.
These are three paragraphs from the speech.
We don’t just need military and border security. As Putin’s invasion of Ukraine has shown, we need energy security too. It is only by having reliable, home-grown sources of energy that we can deny dictators the ability to send our bills soaring. So, in our approach to energy policy we will put security and your family finances ahead of unaffordable eco zealotry.
Unlike Labour we don’t believe that we will achieve that energy security via a state-controlled energy company that doesn’t in fact produce any energy. That will only increase costs, and as Penny said on Friday there’s only one thing that GB in Starmer and Miliband’s GB Energy stands for, and that’s giant bills.
Our clear plan is to achieve energy security through new gas-powered stations, trebling our offshore wind capacity and by having new fleets of small modular reactors. These will make the UK a net exporter of electricity, giving us greater energy independence and security from the aggressive actions of dictators . Now let me just reiterate that, with our plan, we will produce enough electricity to both meet our domestic needs and export to our neighbours. Look at that. A clear, Conservative plan not only generating security, but also prosperity for our country.
It is now nineteen days since Rishi made that speech and I can’t remember any reports about an energy security policy, which he outlined in the last paragraph of my extract from his speech.
He particularly mentioned.
- New gas-powered stations
- Trebling our offshore wind capacity
- Having new fleets of small modular reactors.
He also said we would have sufficient electricity to export to our neighbours. As I said earlier some of this energy will be in the form of hydrogen, which has been created by offshore electrolysers.
If we are exporting electricity and hydrogen to Europe, this is likely to have three effects.
- An improvement in Europe’s energy security.
- H2ercules will improve and decarbonise German industry, using UK hydrogen.
- The finances of UK plc will improve.
It looks like there will be winners all round.
Conclusion
Centrica’s plan for a massive hydrogen store at Rough, close to SSE’s existing gas storage in the salt caverns at Aldbrough, would appear to make sense, if the UK’s excess of offshore wind is converted into green hydrogen, which is then stored and distributed as needed.
Heat-Related Hospital Admissions And Deaths In London
I never saw my father ride on a deep Underground line, like the Northern or the Piccadilly, as he always said the air was terrible.
That was despite we lived within walking distance of Oakwood station and his print works was just a hundred metres from Wood Green Underground station.
But then he was a man, who always had a car, when I knew him, so I suppose he felt he better use it.
On one occasion, he took me to the Printing Industries Fair at Earl’s Court, which is just seventeen stops on the Piccadilly Line from Wood Green Underground station, as it still is today.
His route was as follows.
He left his MG Magnette outside the print works on Station Road.
As this picture I took in 2012 shows, parking wasn’t too difficult.
We then walked up the hill to Wood Green station, which is now called Alexandra Palace, from where we took a steam-hauled local train into King’s Cross.
From King’s Cross, we took a Metropolitan Line train to Hammersmith station.
At Hammersmith, we changed stations and then took a train to Baron’s Court station for Earl’s Court Exhibition Centre.
Today, the route between Alexandra Palace and Earl’s Court stations is very different.
- You can change trains at Moorgate, Farringdon or King’s Cross.
- The oldest trains, that you’ll travel on would have been built in 2008.
- All trains will be fully air-conditioned.
I feel, that I could probably get my father to use this route. Although, I doubt it would happen, as he would have turned 120, at the start of this year.
The Growth Of Air Conditioning
Many cars since the 1980s have been airconditioned and now trains are following that route.
In London these are some dates, when trains were air-conditioned.
- Circle, District, Hammersmith & City and Metropolitan from 2008.
- Elisabeth Line from 2017.
- Gospel Oak and Barking from 2019.
- Greater Anglia from 2019/20.
- Lee Valley Lines from 2019.
- London Midland from 2023.
- London Overground from 2009.
- Southern from 2003.
- Southeastern from 2003.
- Thameslink from 2014.
Each year, more and more trains will be air-conditioned.
Conclusion
Has this growth of air-conditioning reduced the number of cases of heatstroke and other heat related admissions to hospitals?
Centrica Business Solutions And Highview Power
Centrica Business Solutions is one of Centrica’s business units.
It has its own web page, with this sub heading.
Helping Organisations Balance Planet And Profit
This is followed by this mission statement.
Centrica Business Solutions helps organisations to balance the demands of planet and profit, by delivering integrated energy solutions that help you save money and become a sustainable business.
Several pictures show some of the solutions, that Centrica Business Solutions can provide.
Centrica Business Solutions In Numbers
These numbers are given about the customers of Centrica Business Solutions.
- Customer Sites Globally – 7000
- Solar PV Installations Delivered Worldwide – 16,380+
- Solar PV Installations Delivered Power – 240 MW
- CHP Units Operated And Maintained Globally – 700 MW+
- Energy Data Points Collected Each Month Globally – 29 billion
Theses are large numbers.
How Would Centrica Business Solutions Use Highview Power’s Batteries?
The obvious use of Highview Power’s batteries is to connect them between a solar or wind farm and the grid, for when the sun isn’t shining or when the wind isn’t blowing.
Currently, there are three sizes of Highview Power batteries, either working on under development.
5MW/15 MWh
This is the demonstration system, which is described on this page of the Highview web site.
Surely, if a system of this size is very useful for Viridor, there may be other applications and customers out there.
This system will provide 5 MW for three hours.
50MW/300MWh
This is the Carrington system, which is described on this page of the Highview web site.
The Highview web site says this about output potential and connectivity.
The facility will store enough clean, renewable energy to serve the needs of 480,000 homes, as well as providing essential grid stabilisation services. The site will use existing substation and transmission infrastructure.
This system will provide 50 MW for six hours.
200MW/2.5GWh
This is the larger system for Scotland and the North East, which is under development and described on this page of the Highview web site.
The Highview web site says this about output their use.
These will be located on the national transmission network where the wind is being generated and therefore will enable these regions to unleash their untapped renewable energy potential and store excess wind power at scale.
This system will provide 200 MW for 12.5 hours.
In Rio Tinto Punts On British Start-Up To Plug Renewables Gap, I said this.
In Britain, Highview hopes to be putting four 2.5-gigawatt assets into planning this year – one in Scotland, three with Orsted in England.
This sentence was originally published in this article on the Australian Financial Review.
I believe that Centrica could find applications for all three sizes of Highview’s batteries.
Suppose, though Centrica find that an application needs say a 100 MW/1 GWh battery.
From the mathematics, I did at ICI in the 1970s, when looking at the scaling of chemical plants, I believe that Highview’s battery design could be scalable, by just using appropriately-sized turbomachinery, matched to the right number of tanks.
So the customer would get the battery size they needed!
How Much Electricity Could One Of Highview’s Batteries Store?
This image shows large LNG tanks at Milford Haven.
In Could A Highview Power CRYOBattery Use A LNG Tank For Liquid Air Storage?, I did a rough calculation and found that the largest LNG tanks could hold enough liquid air, that would be the equivalent of around one GWh.
So the image above could be a 5 GWh battery.
This image clipped from Highview’s web site, shows large tanks for liquified gas storage.
With tanks like these, Highview could be building batteries with storage to rival the smaller pumped storage hydroelectric power stations.
In Grid Powers Up With One Of Europe’s Biggest Battery Storage Sites, I talked about how Ørsted were planning the Swardeston BESS, where the 2852 MW Hornsea Three wind farm connects to the grid.
The chosen battery will be from Tessla with an output of 300 MW and a capacity of 600 MWh.
I suspect Ørsted couldn’t wait for Highview, but circumstances might have changed now, with the financing deal for the Carrington battery!
Are Combined Heat And Power Units And Highview’s Batteries Interchangeable And Complementary Technologies?
According to the Centrica Business Systems web site, they have deployed over 700 MW of CHP systems globally.
I wonder how many of these systems could have used a standard Highview battery?
Perhaps, Centrica Business Systems have done a survey and found that it could be quite a few.
So, perhaps if Centrica Business Systems had access to Highview’s technology, it would increase their sales.
In addition how many of Centrica Business Systems existing CHP systems, would be improved with the addition of a Highview battery?
It appears to me, that if Centrica Business Systems were to develop a series of standard solutions based on Highview’s technology, they could substantially increase their sales.
What Could Centrica Business Systems Do For Highview Power?
Centrica Business Systems could probably develop several standard applications with Hoghview’s technology, which would be to the benefit of both companies.
But, I believe that as Centrica Business Systems are supporting large number of systems globally, that they are in a good place to help develop and possibly run Highview Power’s support network.
Conclusion
I can see Centrica Business Systems and Highview Power having a long and profitable relationship.
The Chemical Engineer Magazine On Highview Power
This is said in the Wikipedia entry for The Chemical Engineer Magazine.
The Chemical Engineer is a monthly chemical engineering technical and news magazine published by the Institution of Chemical Engineers (IChemE).
I first read the magazine perhaps fifty years ago, when it explained a chemical process, I was working on at ICI.
It is one of several well-respected magazines published by UK scientific, medical and engineering institutions.
This article in the magazine is entitled Energy Stored As Liquefied Air: £300m Investment Triggers Construction Of UK’s First Commercial-Scale Plant.
These three paragraphs introduce the investment.
HIGHVIEW POWER has received £300m (US$379m) in funding to build the UK’s first commercial-scale liquid air energy storage plant (LAES), designed to balance peaks and troughs in power demand as more renewable energy sources are brought online.
Construction of the facility is now underway in Carrington near Manchester. It is scheduled to begin operations in early 2026 and the company predicts it will provide more than 700 jobs in construction and the supply chain.
The plant will have a storage capacity of 300 MWh and an output of 50 MW per hour for six hours.
The rest of the article is just two sections.
- How Will Highview’s New Plant Work?
- Why Is The Technology Needed?
This article in the magazine is an absolute must read.
Centrica Invests In Renewable Energy Storage Capabilities To Boost UK’s Energy Security And Accelerate Transition To Net Zero
The title of this post, is the same as that of this press release from Centrica.
These two paragraphs are effectively headings.
Centrica plc announces a strategic partnership and £70 million investment in Highview Power and its first clean energy storage project in Carrington, Manchester.
Centrica’s investment will be a key part of a £300 million funding package to develop the first commercial-scale Liquid Air Energy Storage plant in the UK, which will boost the UK’s energy security and accelerate the transition to net zero.
These four paragraphs give more details on the deal.
The investment, which forms part of our plans to invest between £600m – £800m a year until 2028, will be structured as £25m of convertible debt at Highview Enterprises Limited, being the Highview Power holding company and £45m of debt funding at the Carrington Liquid Air Energy Storage project, phased over the project construction. The investment delivers several benefits to Centrica:
Robust standalone returns aligned with Centrica’s capital allocation framework and returns thresholds
Aligned to our green-focused investment programme targeting assets which complement our existing capabilities, provide balance to the portfolio, and align to the needs of the energy transition
Includes rights to equity participation and energy optimisation from future projects in Highview’s £9 billion project pipeline.
At a first look, it appears to give Centrica robust returns and some security for their £70 million investment.
But it is the last paragraph that I like. Does it mean that Centrica can cherry-pick, the projects that it likes and fit its own objectives and expertise from Highview’s £9 billion project pipeline and take-up some equity?
Whatever it means, It looks like it will be good for Centrica.
Do the other partners have similar rights to equity?
Suppose Goldman Sachs have a long-term client in the Mid-West of the United States, who are an electricity generator, with perhaps half-a-dozen coal-fired power stations.
As the client needs to decarbonise and it is believed that Highview’s long duration batteries can replace small coal-fired power stations, it is likely that a Highview solution will at least be examined.
If the client goes down the Highview route, Goldman Sachs might like to continue their long-term relationship, by taking a share in the equity.
Rio Tinto Punts On British Start-Up To Plug Renewables Gap
The title of this post is the same as that of this article on the Australian Financial Review.
The article is a must-read and these are a few points.
- Highview is readying to take a big punt on the Australian market, with Rio Tinto and the Northern Territory government shaping up as potential customers.
- Highview is very committed to Australia. We think Australia can be as big as the UK for us, given their ambitions,
- Highview is working on concepts with Rio Tinto. And separate from Rio, we are well advanced in the Northern Territory with the government there to provide a solution to decarbonise the power grid.
- The process uses existing hardware from the gas industry, and the plant’s life should be at least 40 years – five times longer than a battery.
- Highview could replace fossil-fuel gas plants in situ, and could also be an alternative to the more complex and capital-intensive option of pumped hydro.
- Highview already had staff operating in Brisbane.
- Highview was negotiating the long-term contract with the government in Darwin, and had engaged Australian banks to start testing the market for a local fundraising.
- In Britain, Highview hopes to be putting four 2.5-gigawatt assets into planning this year – one in Scotland, three with Orsted in England.
As I said, the article is a must-read and it proves to me that Highview is on its way.
Are Goldman Sachs Stitching Together A Large Deal On Energy Storage?
In UK Infrastructure Bank, Centrica & Partners Invest £300M in Highview Power Clean Energy Storage Programme To Boost UK’s Energy Security, I talked about a deal to invest £300 million into energy storage company; Highview Power.
These three paragraphs are from the Highview Power news item, on which I based my post.
Highview Power has secured the backing of the UK Infrastructure Bank and the energy industry leader Centrica with a £300 million investment for the first commercial-scale liquid air energy storage (LAES) plant in the UK.
The £300 million funding round was led by the UK Infrastructure Bank (UKIB) and the British multinational energy and services company Centrica, alongside a syndicate of investors including Rio Tinto, Goldman Sachs, KIRKBI and Mosaic Capital.
The investment will enable the construction of one of the world’s largest long duration energy storage (LDES) facilities in Carrington, Manchester, using Highview Power’s proprietary LAES technology. Once complete, it will have a storage capacity of 300 MWh and an output power of 50 MWs per hour for six hours. Construction will begin on the site immediately, with the facility operational in early 2026, supporting over 700 jobs in construction and the supply chain.
Note.
- The UK Infrastructure Bank is a is a British state-owned development bank.
- Centrica plc is an international energy and services company.
- Rio Tinto is a leading global mining group that focuses on finding, mining and processing the Earth’s mineral resources.
- The Goldman Sachs Group, Inc. is a leading global investment banking, securities and investment management firm.
- KIRKBI is the Kirk Kristiansen family’s private holding and investment company founded to build a sustainable future for the family ownership of the LEGO Group.
- Mosaic Capital are an American investment firm.
With six partners, that is just £50 million per partner.
As that sum is very much small change for the likes of these guys and the question of taking an equity stake is not mentioned in Highview Power’s news item, it looks like this deal could be a try-before-you-buy deal with some of the partners or a simple investment with others.
Consider.
- Gresham House, Gore Street and others have proven that investing in lithium-ion batteries give a good return on investment.
- The Carrington long duration energy storage facility will be located near to the 884 MW gas-fired Carrington power station. I suspect that Centrica and Rio Tinto will be interested to see how the hybrid power-station performs.
- Could the Lego Group owners be looking at using solar power, wind power and a LDES to reduce the carbon footprint of their stores?
I would assume, that all the investors would get full details on the performance of the batteries.
Someone To Build The LDES
In Bilfinger Drives Highview Power’s Innovative Storage Project, Accelerating The Energy Transition, I describe how German company will build the Carrington LDES.
The Advantages Of An LDES over a BESS
This is only a short list, of the advantages I see.
- An LDES is easily recyclable.
- The LDES has less exotic materials.
- An LDES can be built from zero-carbon steel.
- Highview are claiming a 40-year life for their LDES.
- Highview is already talking about 200MW/2.5GWh LDES systems.
- Two 200MW/2.5GWh systems working together with a wind or solar farm, can replace a 400 MW gas- or coal-fired station.
- I suspect one of Highview’s LDES systems could be placed offshore, if needed.
I also believe that Highview’s LDES systems could be incorporated into complex chemical plants to increase the efficiency.
Are Goldman Sachs Stitching Together A Large Deal On Energy Storage?
Everything now seems to be in place to build these LDES one after the other, to accelerate the energy transition.
With a good supply of orders and enough money to build each system, I cab see no reason, why several systems a month cannot be built and installed.
I have worked with companies like Goldman Sachs in the past, and I wouldn’t be surprised to find, that they have created the consortium, so that all members get the returns and recognition, they disserve.
Adding Lego Group To The Consortium Could Be A Masterstroke
The Lego Group has lots of stores and theme parks worldwide and a reputation for good design and environmental standards.
Last year, I wrote Bedford Depot’s Massive Solar Roof Helps Thameslink On Way To Net Zero. This was putting a solar roof on a rail depot, but surely buildings like this would be suitable for a Highview LDES.
Naked Football
My house was designed by an architect, but built by the worst form of cost-cutting builder. As the house has a lot of windows facing South, I suspect the architect specified air-conditioning. But the builder left it out!
I fitted a single unit, which helped keep the temperatures fairly good.
Then it failed and the rip-off firm who fitted it couldn’t fix it. They told me, they’d never seen a system like it, when they came for the service. They took my money and now it sits there like a folly in my living room.
Last week, I finally got my TV aerial system fixed and for the first time in about two years I can get a good signal in my bedroom, as well as my living room and the downstairs bathroom.
My bedroom is at times, the only reasonably cool room in hot weather in the house.
So now, by getting naked, I can watch the football in comfort.
Bilfinger Drives Highview Power’s Innovative Storage Project, Accelerating The Energy Transition
The title of this post, is the same as that of this press release from Bilfinger, who are a European multinational engineering and services company.
This is the first paragraph of the Wikipedia entry for Bilfinger.
Bilfinger SE (previously named Bilfinger Berger AG) is a European multinational company specialized in civil and industrial construction, engineering and services based in Mannheim, Germany.
Fifty years ago, I was playing a very small part in the designing of complex chemical plants for ICI. My part was mainly to check, the mathematics and dynamics for the designs, the engineers wanted to use.
The experience certainly left me with the belief, that to design a world-class chemical plant is not an easy process.
So if I was needing a complex chemical plant, I would call in the experts.
A Highview Power energy storage system, may not be a chemical plant, but it shares many of the factors of chemical plants, waterworks and sewage plants. So building one, needs a company, with wide experience, which Bilfinger certainly appear to have.
This paragraph from the press release, summarises Bilfinger’s roll in Hghview Power’s Manchester project to create a 50 MW/300 MWh battery based on Highview’s proprietary long duration energy storage system.
The scope of Bilfinger’s services ranges from the procurement of steel to extensive plant construction services, including mechanical, electrical, instrumentation, insulation, painting and structural steel work, along with the overall management of all aspects of construction, including civil works and equipment installation. As principal contractor, Bilfinger is committed to ensuring the highest safety standards on site.
In UK Infrastructure Bank, Centrica & Partners Invest £300M in Highview Power Clean Energy Storage Programme To Boost UK’s Energy Security, I described how Highview Power had recruited high-class backers to fix the companies finances.
It looks like the Bilfinger deal to build the first system, is the last piece of the jigsaw and will see Highview Power on its way.
The Anonymous Widower 