Smarter Pricing for All Thanks to Market-wide Half Hourly Settlements

David Sheldrake

By David Sheldrake, Global SVP of Sales360, POWWR

The need for energy meters in public sector buildings to adhere to the Market-wide Half Hourly Settlement (MHHS) rules set out by Ofgem is inching ever closer. It is important to remember that this migration is more than simply a technology upgrade; it signifies a move towards a more adaptable, responsive, and sustainable energy framework. By giving energy managers more control, promoting innovation, and encouraging collaboration, MHHS sets the stage for a future where achieving net zero is not just a goal, but a tangible reality.

Power back in the hands of the public sector

In many ways, this overhaul puts the power back in the hands of public sector businesses and provides greater awareness of energy consumption than ever before. Through the new breed of associated smart meters and the innovative time-of-use tariffs that will surely become available, energy managers will be able to make more informed decisions about when and how they use energy. This will not only help lower energy bills but lead to greater grid stability.

But it will in no way be an easy operation. Around 30 million meters will need to move over to the new MHHS Target Operating model, with 2.6 million of those being within businesses.

What is MHHS?
Market-wide Half Hourly Settlement (MHHS) is the new electricity market arrangements that will enable the flexibility to support transition to Net Zero. A shorter and more accurate Settlement timetable using Half Hourly meter readings for settled energy will support a cost-effective electricity system, encourage flexible use of energy and help lower bills. The MHHS Programme is an industry-led programme established to deliver the Target Operating Model and aims of the Electricity Settlement Reform Significant Code Review (SCR). This will see meters migrate to a new topline to comply with the changes. MPANs will migrate in phases by supplier. The suppliers are going through a qualification process, and this will determine when the MPAN is migrated.

Working harder to get smarter

Smart meters have been replacing traditional gas and electricity meters across the UK for almost a decade and a half. They make the energy system more flexible, boost efficiency, help in the move towards more renewable energy sources, and reduce energy consumption. Yet, despite these proven advantages though, moving customers to them has been tricky. According to the most recent data there are around 32.4 million smart and advanced meters in the UK, representing just 57% of all meters. That means that the energy industry is having to work doubly hard to convince the remaining 43% to rip and replace any meters that are not MHHS compatible.

A timeline for success

There are several significant milestones that have been set out by Ofgem. Here is a summary of those still to come so that you can plan accordingly:

September 2025 โ€“ The industry needs to be ready to change the Top Line Supply Numbers and migrate meters to be half hour ready. No physical meter changes are expected at this point, however terminology on bills will change. The migration of meters to half hour will be phased in two waves.

March 2026 โ€“ For the meters that are unable to be switched to half hour, suppliers will have to engage with consumers to make physical changes or replace meters to align to MHHS.

May 2027 โ€“ The date by which all eligible meters need to be switched.

July 2027 โ€“ Timeline complete and all meters can be half hour settled. All other electricity profile class (01-04) will no longer exist.

The benefits are numerous

The benefits of MHHS are numerous. Perhaps the most important, however, is that it will boost accuracy and stability. Through MHHS energy managers โ€“ and the industry as a whole โ€“ will  have access to more granular data. This will lead to pricing with enhanced accuracy based upon true market conditions. The increased data will also likely lead to innovation in product offerings and a more stable grid.

Becoming active contributors

2025 will be see a ramp up in efforts to ensure both pricing and settlements become better aligned in the future. However, the overall roll-out will likely take another couple of years. During this time, there will be a teething period where public sector businesses and the energy industry alike need to become familiar with the required top line changes to the meters and what the new associated terminologies mean.

However, it is surely a price worth paying. The move to MHHS will ensure that energy managers can ensure that their businesses are no longer passive recipients of energy but become active contributors in a dynamic ecosystem. Becoming empowered to shape their own energy futures through participating in more dynamic pricing schemes and time-of-use tariffs.

This article appeared in the May 2025 issue of Energy Manager magazine. Subscribe here.

Rinnai: Leading Bakery & Bread Manufacturer Adopts Ultra High-Efficiency Water Heaters to Cut Operational Costs

Rinnai has installed its range of I2HY20 Hydrogen blends 20% certified commercial water heaters at a leading bread manufacturing brand in Bradford.  An industrial scale bakery must have access to a consistent flow of clean water for sanitation purposes and to produce dough. A plant bakery can use anywhere from 10,000 to 300,000 gallons of water per day.

Find out more about the Rinnai condensing range https://www.rinnai-uk.co.uk/products/commercial

For the bakery to continue operations without negating production output and to reduce costs Rinnai design specialists decided that installing a Rinnai N series unit would be the ideal solution. The Rinnai N series range of commercial condensing water heaters guarantees copious amounts of temperature accurate hot water. The Rinnai commercial water heaters are also highly efficient with a tested efficiency of 97% and as Rinnai condensing water heaters do not store water, wasteful standing losses are also avoided.

The Rinnai Sensei N Series continuous flow hot water heater range offers a more compact, enhanced combustion design that allows for easier installation, superior operational performance as well as ease of serviceability.

The Rinnai N Series is the first ever continuous flow hot water heating unit manufactured with stainless steel heat exchangers to be available in the UK – this provides a greatly extended working life at optimum performance to each of the four models in the range. In addition, market leading extended warranties are provided to ensure customer satisfaction. Rinnai N Series continuous flow water heaters are hydrogen Blend and Bio-LPG blend ready.

The four models are:

  • the N1600i giving 954 litres per hour (at 50 degrees)
  • the N1600e (external) also giving 954 litres per hour (at 50 degrees).
  • the N1300i giving 775 litres per hour and
  • the N1300e (External) giving 775 litres per hours of temperature controlled hot water at 50 degrees.

The two 1600s have load profiles of XXL and are water efficiency class A rated, while the 1300s are load profile XL and are also water efficiency class A rated.

The entire range is low-NOx (Less than 26ppm meaning they gain additional points under BREEAM) and futureproofed. The N series continuous flow water heater utilises Rinnaiโ€™s patented advanced burner technology with a 13-1 turn down ratio โ€“ the largest on the market combined with 97% efficiency rating. Integral controls on the units enable the water heater to achieve high efficiencies due to advanced burner control and high modulation ranges.

This wide range of modulation means that energy usage is completely optimised as the water heater maintains smart inbuilt controls that will only heat the water to the temperature required – thus preserving energy.

Rinnai is continuing to design and produce cost-effective technology for commercial operations that require clear access to huge amounts of clean hot water. Rinnai also offers a range of clean power alternative technologies in their H3 product range which includes hydrogen, solar and hybrid decarbonising technologies for domestic or commercial applications.

For support on your next water heating or heating project contact us today https://www.rinnai-uk.co.uk/contact-us/help-me-choose-product

This article appeared in the May 2025 issue of Energy Manager magazine. Subscribe here.

Ecobat Battery finds the solutions, whatever their size, and weight!

There are a host of worthy causes that can inspire individuals and businesses into action, but those related to the sobering subject of cancer make a particular connection, as there are few families that have been spared the trauma of having a loved one in some way affected by the terrible disease.

Although itโ€™s difficult to make any measurable differences on the medical side, providing help on almost any basis has a huge impact at a personal level, which is greatly valued by those involved, and one such example is the Stapleford Miniature Railway and its support for LOROS (the Leicestershire and Rutland Organisation for the Relief of Suffering).

The Friends of the Stapleford Miniature Railway (FSMR) is a voluntary body, in conjunction with the Gretton Family, which is dedicated to maintaining the railway in an operational capacity for the purpose of occasional public and private events. All proceeds over and above the cost of maintaining and running the railway are donated to charity.

The FSMR โ€“ www.fsmr.co.uk โ€“ has been associated with fundraising for LOROS ever since the railway first reopened to the public for the first Stapleford Steam event in the summer of 1995. As well as the two annual public events, the FSMR raises money in other ways for LOROS. The occasional โ€œgreat train robberiesโ€ which sometimes can occur at the SMR, on private invitation days, are also very entertaining as well as raising money. 

In addition, its President, Jennifer Lady Gretton, is the current President of LOROS.

Ecobat Batteryโ€™s Mark Allsopp is also involved with FSMR and its support for LOROS, and he recently spotted an opportunity for Ecobat Battery to step in and provide a practical solution to a growing issue facing the railway and its enthusiastic, but aging, volunteers.

The braking system for the coaches running on the line had been relying on three rather heavy lead acid batteries, which had started to be a problem when they had to be lifted out to charge and maintain them. Ecobat Batteryโ€™s solution was to donate three of its own brand lithium EBL100 batteries, which being about half the weight of the previous batteries, not only solved the lifting issue, but as they have a much longer lifespan, also provided a long term resolution to the matter.

As a result, the team responsible for ensuring the railway is operating correctly, have one less thing to concern themselves with and the FSMR can continue to support LOROS, and add to the enormously impressive ยฃ109,000 that it has already provided to the charity!

The Stapleford Miniature Railway is open to the public on 14th & 15th June, 26th & 27th July and 23rd & 24th August, with full details available on the organisationโ€™s website. For further details, please visit Ecobat Battery at: https://www.ecobatbattery.com/brands/ecobat-2/

This article appeared in the May 2025 issue of Energy Manager magazine. Subscribe here.

Rinnai: Delivering Efficient Heat Pump Systems Beyond Media Perceptions

Rinnaiโ€™s Chris Goggin looks in-depth at public information regarding heat pumps and other low carbon products being potentially diluted by recent changes to social mediaโ€™s stance on fact-checking. The alternative heating and hot water technologies are receiving some adverse media coverage due to misinformation and sometimes disinformation. Installations of any heating and hot water – or air-cooling system, due to their very nature, must be based on accurate site information to facilitate a precise system that delivers the required performance.

Sign up to the Rinnai UK newsletter for accurate information and system design best practice https://www.rinnai-uk.co.uk/contact-us/newsletter-sign

Changes in the fact-checking status of the major brands of social media could lead to unwelcome impact on the stringent fact-based user-conditions needed when installing or designing heating and hot water delivery systems. Major social media outlets have publicly reduced their commitment towards fact-checking, which could lead to accredited and trusted sources of information and data being devalued.

As UK usage of heat pumps, and other low carbon technologies, continues to grow, current public knowledge regarding alternative DHW and heating is not at a satisfactory level of comprehension. And because of poor levels of public understanding many customers who require low carbon energies and technology often order solutions that are not suited towards property requirements.

Rinnaiโ€™s objective is to equip the UK customer with product and complete system data that demonstrates the accurate value of overall system performance. One such methodology of understanding is SPF (Seasonal Performance Factor).

Heat pump efficiency is measured using Coefficient of Performance (COP). The coefficient of performance (COP) is a measure of the efficiency of a heat pump, defined as the ratio of useful heat produced from the energy used. Essentially, it is a measure of how effectively a system converts energy into heating.

An additional measurement extensively used in the industry is the Seasonal Coefficient of Performance (SCOP), which is the average COP over a full heating season. Unlike the Coefficient of Performance (COP), which presents an outline of the heat pumpโ€™s efficiency at a definite moment, SCOP takes into account the variable outdoor temperatures and operating environments throughout the season. This method provides a more realistic picture of how effective the heat pump will be on an annual basis.

Due to the limited knowledge regarding the entire system in many commercial buildings these measurements can sometimes lead to a perception of underperformance of the heat pump system. This in turn lowers customer expectations, damages the reputation of heat pump technology and lowers confidence within the specification process. The lack of congruence between the expected heat pump performance and actual system performance can only be overcome by a complete system thinking approach.

SCOP calculations do not take into consideration the various additional factors that occur daily during heat pump operation. This could include immersions operating for large, high heat loss recovered by backup heaters, system pumps or ancillaries within the secondary system utilizing excess energy.

To account for these losses research has been conducted to calculate the SPF of a heating system. Over the period of a year this measurement evaluates the overall heat supplied to the total electricity used as the outdoor temperature fluctuates. The SPF accounts for many additional variables that can only be accurately understood by installing data loggers to effectively monitor the system and show an accurate image of hourly operations.

Join the free CIBSE accredited SPF CPD today https://www.rinnai-uk.co.uk/training/cibse-cpd-training-enrolment

Nevertheless, these calculations can also be used from a design point of view prior to installation. Estimates can be made that may differ from real-time operation yet provide the customer with a clearer picture of how their system will perform throughout the year. Post installation, data loggers can be attached to verify this design SPF.

As current social media is now creating distance between audience and fact, UK contractors, installers and all other customers should prioritise manufacturers of carbon reducing technology who present technically led data that demonstrates system efficiency. One of Rinnai key objectives is to provide customers with accurate, consistent, and transparent product data the makes decision making easier.

Contact Rinnai today for more information and design support https://www.rinnai-uk.co.uk/contact-us/help-me-choose-product

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RINNAI OFFERS CLEAR PATHWAYS TO LOWER CARBON AND DECARBONISATION PLUS CUSTOMER COST REDUCTIONS FOR COMMERCIAL, DOMESTIC AND OFF-GRID HEATING & HOT WATER DELIVERY

www.rinnai-uk.co.uk/about us/H3

  • Rinnaiโ€™s range of decarbonising products – H1/H2/H3 – consists of hot water heating units in gas/BioLPG/DME, hydrogen ready units, electric instantaneous hot water heaters, electric storage cylinders and buffer vessels, a comprehensive range of heat pumps, solar, hydrogen-ready or natural gas in any configuration of hybrid formats for either residential or commercial applications. Rinnaiโ€™s H1/2/3 range of products and systems offer contractors, consultants, and end users a range of efficient, robust, and affordable low carbon/decarbonising appliances which create practical, economic, and technically feasible solutions. 
  • Rinnai is a world leading manufacturer of hot water heaters and produces over two million units a year, operating on each of the five continents. The brand has gained an established reputation for producing products that offer high performance, cost efficiency and extended working lives. 
  • Rinnai products are UKCA certified, A-rated water efficiency, accessed through multiple fuel options and are available for purchase 24/7, 365 days a year. Any unit can be delivered to any UK site within 24 hours.
  • Rinnai offer carbon and cost comparison services that will calculate financial, and carbon savings made when investing in a Rinnai system. Rinnai also provide a system design service that will suggest an appropriate system for the property in question.
  • Rinnai offer comprehensive training courses and technical support in all aspects of the water heating industry including detailed CPDโ€™s.
  • The Rinnai range covers all forms of fuels and appliances currently available – electric, gas, hydrogen, BioLPG, DME solar thermal, low GWP heat pumps and electric water heaters More information can be found on Rinnaiโ€™s website and its โ€œHelp Me Chooseโ€ webpage. 

RINNAI FULL PRODUCT AVAILABILITY 24/7 FOR NEXT DAY DELIVERY of ALL HOT WATER HEATING UNIT MODELS INCLUDING 48-58kW UNITS-

SAVINGS OF

20% REDUCTION of Opex Cost,

30% REDUCTION of initial cost

15% REDUCTION in carbon

75% REDUCTION of space

Visit www.rinnai-uk.co.uk  

Or email engineer@rinaiuk.com  

For more information on the RINNAI product range visit

www.rinnaiuk.com

This article appeared in the June 2025 issue of Energy Manager magazine. Subscribe here.

Socomecโ€™s new Medium Voltage solution streamlines energy storage projects, reducing costs and installation risks

The innovative design enables Socomec to deliver electrical EPC capabilities, removing the need for multiple contractors โ€“ reducing complexity and accelerating project timelines

Socomec, the global manufacturer of energy storage solutions, today launches its SUNSYS HES XXL SKID solution, a ready-to-use high-power energy storage system for on-grid LV or MV applications from 1MVA / 1MWh. Equipped with transformers and switchgear, the drop-and-start technology reduces installation complexity and commissioning time โ€“ accelerating large-scale commercial and industrial energy storage operations, grid supporting services as well as co-located renewable projects and the charging of heavy-duty electric vehicles.

The announcement comes as Europe sees a surge in large utility-scale storage projects, with their share of newly installed capacity projected to rise to 45% by 2028. Commercial and industrial storage is also increasing and expected to grow by 25% over the same period. This rapid expansion is driving demand for faster project deployment and fully integrated solutions that can reduce the reliance on multiple vendors, which can delay project delivery and push up costs.

In response, Socomec is streamlining energy storage integration with a pre-engineered system that includes BESS components, transformers, and switchgear onto a single platform mounted on a SKID. The turnkey solution, designed and tested by Socomec’s expert engineers, minimises installation risks, ensuring smooth integration with LV or MV networks.

By reducing the need for additional spending on Engineering, Procurement, and Construction (EPC) contractors, it simplifies procurement, reduces on-site engineering and streamlines installation. Once on-site all project owners have to do is connect the AC power, DC battery cables and communication cables โ€“ significantly limiting spending and time during the installation phase. The innovative SKID design also optimises space requirements, making it an efficient and cost-effective solution for a variety of project sites.

Etienne Cottrant, Energy Storage Solutions Specialist at Socomec, said: โ€œInnovation is at the heart of everything we do and weโ€™re committed to making energy storage deployment as seamless as possible. With the EUโ€™s goal of a carbon-neutral economy by 2050, energy storage plays a vital role in supporting the growth of renewables. Our turnkey solution, pre-engineered and factory-mounted with transformers and switchgear, takes the complexity out of projects – reducing delays, simplifying procurement and ensuring long-term reliability. It also allows those working on the front-of-the-meter applications to generate ROI quicker from their assets. By removing the need for multiple vendors, weโ€™re helping businesses accelerate their energy storage investments with more efficient project planning.โ€

Cutting energy red tape: why it’s more important than ever for the government to listen to business

Anthony Ainsworth

Anthony Ainsworth, Chief Operating Officer, npower Business Solutions

Since the Labour government came into power, there has been much debate about whether its environmental and economic growth strategies are at odds with each other.

In a speech earlier this year, Chancellor Rachel Reeves described net zero as the โ€˜industrial opportunity of the 21st centuryโ€™, and that there would be no โ€˜trade offโ€™ between economic growth and net zero.

However, since she made that statement, there have been rumours of cuts to the budget for the Department for Energy Security and Net Zeroโ€™s (DESNZ) flagship Great British Energy project and ongoing rumblings about whether net zero by 2050 is a viable target.

It should be said we fully support the ambitions outlined in its Clean Power 2030 Action Plan. Although ambitious, switching to cleaner energy sources is absolutely necessary. In addition, net zero by 2050 is non-negotiable, and there are huge commercial, reputational as well as environmental benefits for businesses who embed sustainability into their operations.

The recently published Planning and Infrastructure Bill also pledges to unblock the planning process for major infrastructure projects, such as renewable energy schemes.

However, do these reforms go far enough to support UK businesses and the challenges they are facing right now?

Red tape – our challenge to government

Last year, our Business Energy Tracker asked businesses where they would most value support from the government. Reducing planning red tape was top of this list, so it is great to see steps in a positive direction where this is concerned.

They also called for more grants and tax incentives to help them install measures such as energy efficiency and on-site generation, as well as highlighting the increasing number of non-commodity costs that are having a huge impact on the amount they are paying for their energy.

Using this insight, we then launched our โ€˜Red Tape Challengeโ€™, asking businesses what energy and net zero policies and regulations they would like to see cut – or at the very least reviewed – to support their sustainability ambitions and give them the confidence for future investments.

More than 900 respondents took our survey, highlighting that businesses really want to be heard.

So, what did businesses call for?

Again, planning rules, non commodity costs and grid constraints were high on the list, as well as concerns around the impact of the Review of Electricity Market Arrangements (REMA) and questions around the effectiveness of schemes such as the Energy Savings Opportunity Scheme (ESOS).

Despite the positive moves made by the government since the General Election in July, such as ending the defacto ban on offshore wind, increasing the budget for Contracts for Difference, and publishing the Clean Power 2030 Action Plan, businesses are clearly concerned that energy policy for the here and now is not going far enough to give them the confidence to invest.

This is coming against a backdrop of anti-net zero sentiment, with many high profile cases of businesses either rolling back, or completely scrapping, net zero targets as they seek to mitigate their risk against other economic pressures.

To feed this back to government, I produced a letter and recorded a video for Sarah Jones, Minister of State at both DESNZ and the Department for Business and Trade. In it, I outline the results from our research, and urge her and her colleagues to listen to what businesses have to say. Working in partnership with businesses to shape future energy and net zero policy decisions is more important than ever.

Making clean power a reality needs business support

2025 will be a year when major change needs to happen if the Clean Power 2030 target and wider net zero by 2050 ambition are to be met. Businesses will play an important role in both of these, particularly when it comes to low carbon investments.

So, while a clean power system and net zero driven economy that encourages greater private sector investment will be crucial in the important years ahead, in the short term, businesses desperately need policy clarity and simplification.

With several major policies and strategies set to be published this year, including the Industrial Strategy and the Great British Energy Act, we will continue to work closely with government to ensure they deliver for UK businesses. Because, when it comes to energy and net zero, it is absolutely vital that the voice of business is heard.

This article appeared in the May 2025 issue of Energy Manager magazine. Subscribe here.

How an 11-Day Energy Audit Uncovered Long-Term Savings

Itโ€™s easy to talk about the potential of power and energy loggers (PELs), how they help track energy usage, highlight inefficiencies, and save costs. But how do they perform in real-world conditions? Julian Grant, General Manager at Chauvin Arnoux UK, shares practical insights which were revealed during an 11-day energy monitoring session at a secondary school in Kent.

Most organisations and businesses are used to working with tight budgets, but schools are probably dealing with some of the tightest ones out there. So, it’s crucial to get the most out of every (ยฃ) pound they spend. And since energy bills take up a large chunk of their budget, focusing on energy efficiency becomes a top priority.

Thatโ€™s why we partnered with a secondary school of 700 students to carry out an in-depth energy audit. The goal? To identify opportunities for improving efficiency and cutting costs.

The schoolโ€™s governors were keen to take action, so we decided to install a Chauvin Arnoux three-phase power and energy logger at the schoolโ€™s main incoming supply. This would give us the data we needed to spot areas where savings could be achieved.

This innovative data logger uses flexible current transformers, clamp-on connections, and a magnetic base for quick and easy mounting. Thanks to its design, it was installed with minimal disruption. The device was left in place for eleven days, capturing a complete set of data from both school days and weekends

The results were both insightful and practical. One of the key findings was a significant imbalance in phase currents, as shown in Figure 1. The peak current on one phase reached 219.2 A, compared to 172.8 A on the second phase and 150.3 A on the third, which highlights a clear issue with how the schoolโ€™s loads โ€” mostly single-phase are unevenly distributed across the phases. This is undesirable as imbalance increases the current in the neutral conductor and can result in excessive heating. Current imbalance can also lead to local voltage imbalance at various points in the installation, which may affect the efficient operation of three-phase loads like motors.

Figure 1

Also notable was the high level of harmonics in the supply system. As seen in Figure 2, the third and fifth harmonics were particularly high. Given the growing numbers of โ€˜electronicโ€™ loads in todayโ€™s schools, itโ€™s not surprising. Personal computers, office equipment and LED lighting tend to introduce third harmonics, while uninterruptible power supplies (UPSs) and servers are a common source of fifth harmonics. That said, harmonics can still pose a risk as they may cause unexpected heating in neutral conductors and can interfere with the proper functioning of electronic equipment.

Figure 2

Perhaps the most surprising discovery from the logged data can be seen in Figure 1. As would be expected, peak current usage occurs during regular school hours when the building is occupied. But what really stood out was that even during evenings and weekends, when the school was closed, around 30 A per phase were still being drawn. While some of this probably relates to things like emergency lighting and is therefore unavoidable, the overall figure was unexpectedly high.

The school then investigated this out-of-hours consumption and found that the portable electric space heaters, which were being used to supplement the poorly performing HVAC system in part of the school, were often being left on during the night and at the weekend.

This turned out to be a classic example of a quick, zero-cost energy saving opportunity. The solution? Simply encouraging teachers to be more mindful about switching off heaters at the end of the day.

One final parameter that was carefully evaluated during the monitoring period was power factor, but this was found to be good at all times, with little opportunity for further improvement. This was probably because the school had few inductive loads, and those were balanced out by capacitive loads such as LED lighting. But in other settings, including other schools, the situation might be very different. Thatโ€™s why itโ€™s always important to pay close attention to power factor results during any energy monitoring exercise.

Moreover, this data logging activity delivered clear, actionable recommendations that promise significant benefits moving forward.

Switching off portable heaters outside of school hours has already been put into action, though itโ€™s only a temporary fix. In the long term, far greater energy savings are expected by upgrading the schoolโ€™s HVAC system. The goal is to improve overall efficiency to the point where portable heaters are no longer needed at all. There may be other unnecessary out-of-hours energy loads too like lights and computers left on when no oneโ€™s around. The school can further investigate and consider simple solutions, such as occupancy sensors for lighting and timed switches to automatically power down computers at the end of the day.

Next, high levels of harmonics certainly need to be addressed. It would be beneficial to identify the individual sources and, where necessary, fit filters. The result will be cleaner supplies, reduced cable heating and longer equipment life.

Lastly, the school can look at redistributing single-phase loads on the power system to provide better balance between phases. Again, this would reduce heating in neutral conductors, and help ensure that any three-phase loads on the system operate efficiently.

Monitoring power quality and usage at the school in Kent turned out to be a straightforward and low-cost exercise that had zero impact on day-to-day operations. What it did deliver, however, was a wealth of valuable insights that will help the school use electricity more efficiently and cut down on energy costs. So, to answer the question raised at the start: are power and energy loggers useful in real-world settings? Absolutely. Theyโ€™re an incredibly effective for identifying energy-saving opportunities. https://cauk.tv/

This article appeared in the May 2025 issue of Energy Manager magazine. Subscribe here.

Vattenfall IDNO to connect new solar project to help lower the carbon impact of AI and reduce strain on the UK grid

Vattenfall IDNO have signed a contract with Serconnect Ltd to provide a new grid connection for a Helios Power Ai Solutions project in Huddersfield. The project will deliver an 11 kV point of connection for a 177KW solar installation at Manor House Farm, connecting to a point of supply at 400 Volts.

Helios Power Ai Solutions are working to make Ai more sustainable by providing access to distributed data centers which are fed power from renewable assets such as Solar, Wind and BESS (Battery Energy Storage Systems). By doing so they aim to enable Ai to scale up and grow in usage without putting strain on the grid. The Helios Power Ai solution is a platform that uses blockchain technology. It allows people to rent powerful computer hardware (Ai GPUs) for running Ai tasks. Additionally, it offers a marketplace where customers can buy and sell products and services related to renewable energy.

The whole system uses a special digital token called the Helios Power token for transactions. The Ai software is in development, and the site is currently export only until itโ€™s ready for testing (selling power back to the grid and not consuming it onsite).

This first of its kind in the UK – aims to minimize the rapidly growing energy impact of Ai and blockchain technology by incentivizing the use of renewable-powered infrastructure and token-based ecosystems. Helios Powerโ€™s custom mining units are designed for renewable energy environments and can be installed on any solar farm providing a profit share mechanism for asset owners.

This is a ground-breaking project which aims to minimize the rapidly growing energy impactof Ai and blockchain technology by incentivizing the use of renewable-powered infrastructure and token-based ecosystems. We are hoping that this is a product which could be rolled out to many existing Solar Farms across the world to supply Ai the sustainable power it requires, whilst reducing the strain on grid systems. Vattenfall IDNOโ€™s Asset Adoption Value contributed to the reduction of the overall cost of the project, which was a key factor in Helios Power Ai Solutions decision to proceed with the project. Manor House Farm will benefit from a rental income for the use of their roof space and housing the technology for the data platform infrastructure. This is the first contract which Vattenfall IDNO has signed with Serconnect Ltd, which has an anticipated energisation date in Q3 of 2025.

“We are proud to be adopting the new grid connection for Manor House Farm, in Huddersfield This is our first project with Serconnect, and we look forward to building a strong partnership and delivering many more togetherโ€, says Stewart Dawson, Managing Director atย  Vattenfall IDNO.ย  โ€œAt Vattenfall IDNO, we are committed to enabling the transition to a cleaner, more sustainable energy future, and the energy optimization and AI technology involved in this project is another step towards that goal.”

โ€œWeโ€™re delighted to see the grid connection for Manor House Farm, โ€œ says Richard Kapelko, Co-Founder/Director of Helios Power AI Solutions. โ€œMoving forward to support our project in Huddersfield The Asset Adoption Value paid by Vattenfall IDNO provides a useful contribution by helping to reduce the overall costs of the project, which was a key factor in our decision to proceed with the works. Collaborating with Serconnect Ltd and Vattenfall IDNO has been invaluable in bringing this project to life, and we look forward to testing our solutions to help reduce the environmental impact of AI and blockchain technology.โ€

Kevin Richardson, Commercial Director at Serconnect adds: โ€œWe are proud to be delivering the new grid connection for Manor House Farm, working alongside Sanctum-Energy and Vattenfall IDNO to support this important project in Huddersfield. This collaboration demonstrates the value of a well-structured adoption model, with the Asset Adoption Value from Vattenfall IDNO playing a crucial role in making the project financially viable. We look forward to building on this successful partnership and delivering many more connections that enable the transition to a cleaner energy future.โ€

For more information: Fossil freedom – Vattenfall.

Lightweight solar pioneer in landmark Tesco Watford Extra project

Solivus, a pioneering developer of lightweight, flexible solar solutions, has been awarded the contract for the engineering, procurement, construction, and installation of PV solar systems for Tescoโ€™s Watford Extra store.

The six-week project, will see close to 750 lightweight solar panels mounted by Solivus on the rooftop of the 80,000 sq ft Watford store.

In the first year alone, the solar installation is expected to generate 339,506 kWh of electricity, delivering significant carbon savings. Using Solivus modelling, it is estimated that the installation will generate 10 percent of the storeโ€™s annual electricity requirements, reducing reliance on grid electricity.

The project forms part of Tescoโ€™s wider commitment to installing solar panels on 100 of its large stores across the UK, helping increase the proportion of renewable electricity that comes from direct sourcing. .

Commenting on the collaboration, Bianca Samarakoon, Group Head of Energy at Tesco said:

โ€œWorking with innovative suppliers is key to unlocking some of the challenges we face on our journey to net zero. 

Our partnership with Solivus will allow us to use lightweight solar panels where traditional solar isnโ€™t feasible, helping us to move closer to our goal of carbon neutrality across our own operations by 2035.โ€  

Solivus was awarded the contract on account of its pioneering lightweight solar technology systems, which provide an ideal solution for buildings with roof weight limitations.

Like many commercial properties, many of Tescoโ€™s existing buildings encounter structural challenges such as weight restrictions making traditional rooftop installations impractical. As part of its decarbonisation drive, Solivusโ€™ innovative, lightweight solution will enable Tesco to overcome these constraints and integrate solar self-generation more effectively and efficiently.

Renewable energy is seen as a crucial element in the UKโ€™s plans to achieve net zero by 2050.

Jo Parker-Swift, CEO and founder of Solivus adds: โ€œItโ€™s now well understood that for the UK to achieve net zero by 2050 requires an unprecedented level of investment in clean energy. This project follows Solivus delivering on several major commercial premises such as stadiums and airports. Clients choose Solivus due to our innovative and straightforward client centred approach. We are super proud and excited to play a role in supporting Tescoโ€™s pioneering clean energy transition and hope it may serve as a blueprint for further stores and the wider retail market.โ€

Tesco is the latest of a number of major names to partner with Solivus this year in a bid to decarbonise, maximise the solar self-generation opportunity and reduce grid reliance including bp, Balfour Beatty, Farnborough Airport and Astute Electronics. 

For further information please visit: https://www.solivus.com/

Hamworthy Heating provides Cambridge primary school with new Tyneham heat pump cascade installation

Two Tyneham 290HT 27kW air source heat pumps from Hamworthy Heating โ€“ a trusted British manufacturer and supplier of commercial heating and hot water products โ€“ have been installed in cascade for underfloor heating in a new extension at a primary school in Cambridge.

To accurately meet the heating requirements of the new school extension and ensure an even distribution of heat, the new system from Hamworthy Heating includes two 290HT 27kW Tyneham heat pumps with natural refrigerant, configured in a hydraulic cascade set up.  The heat pumps are connected to a 500L buffer cylinder, which also features an electrical heating element, controlled by a BMS.  The buffer connections, Exogel anti-freeze valves and degassers were also supplied by Hamworthy Heating.

This cascade arrangement allows for the heat capacity to be equally distributed according to the specific heating demands of the new school building.

Rather than rely on a larger single heat pump that could run inefficiently at partial load, the new cascade set up enables the units, which have inverter controlled compressors, to adjust their capacities as needed which will enable the school to achieve a more accurate match to its actual heating demand and optimise performance.

Additionally, as the new system can adjust to keep the heat pumps operating at their most efficient state, cycling of heat pumps and unnecessary energy consumption is avoided.

The two new Tyneham 290 HT installation also provides the school with increased protection against breakdowns. Unlike a single heat pump installation, which can result in complete downtime, the new system now supplies the new building with uninterrupted heating.  Furthermore, as the workload is shared across two Tyneham heat pumps, stress and wear on individual components is significantly reduced.

Following a previously successful collaboration with Hamworthy Heating on the schools existing heating system, Sotham Engineering were keen to stick with a brand they could trust on the second phase of its project.

Ricky Harris, Sotham Engineering Services Ltd comments, โ€œWe choose Tyneham heat pumps due to their overall performance and efficiency.  Having collaborated with Hamworthy during the first stage of the project, we found them easy to work with and always available to provide support and assistanceโ€.

Building on the success of its popular Tyneham heat pump range, the new 290HT heat pump utilising natural refrigerant offers a co-efficiency of performance (COP) of up to 4.94 for optimum efficiency. 

Quiet in operation, with noise levels as low as 64db(A), the latest 290HT heat pump range is available in five outputs from 15kW through to 50kW and can be cascaded to achieve higher outputs and can be combined with alternative Hamworthy Heating products to achieve a low-carbon hybrid heating system.

Following a successful installation, the new extension now benefits from a reliable and efficient heat pump system that will help the school to reduce its carbon footprint and lower operational costs. For more information on the Tyneham 290HT commercial heat pump range, please visit www.hamworthy-heating.com/ or call 01202 662 552

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