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About Generators

Electrical generators are pieces of critical power equipment that provide electricity when power from the power grid is unavailable. Interestingly enough, generators don’t actually create electricity. Instead, generators convert mechanical or chemical energy into electrical energy – by capturing the power of motion and turning it into electrical energy by forcing electrons from the external source through an electrical circuit. Once an electrical current has been established, it is directed through copper wires to power external machines, devices, or entire electrical systems.

A petrol generator is an alternative to diesel but typically used only for short periods. Greener alternatives include natural gas. These generators rely on underground access to natural gas. Another option is propane which is generally chosen when natural gas isn’t available.

Diesel generators

Diesel generators are those that are run on diesel, and can typically be divided into two basic parts: a diesel engine and an electrical generator. Diesel generators can be used to provide power to places that are not powered by a power grid or can be used as a backup in case of a power outage.

Natural gas generators


Natural gas generators use natural gas however, and are used in both emergency and portable generator types. They are one of the most affordable and effective fuels among non-renewable resources for power generation.

LPG generators


LPG (Liquid Petroleum Gas) generators have powerful engines that run smoothly and quietly while providing dependable power when you need it most.

The UK electricity system has experienced high levels of grid resilience historically – offering a high degree of confidence to businesses and consumers that power will be available 24 hours a day, 7 days a week, 365 days per year. However, we must be able to respond to the more severe, less frequent events to ensure power supplies are maintained or restored quickly following such an event. Therefore, grid resilience is ‘the ability to withstand and reduce the magnitude and/or duration of disruptive events, which includes the capability to anticipate, absorb, adapt to, and/or rapidly recover from such events‘.

A backup or standby generator provides electrical power in the event of a power outage. Within seconds of the power loss the generator starts and the electrical load is transferred to the generator. When combined with an Uninterruptible Power Supply (UPS), it can provide complete continuity of power with zero downtime. Once power returns to the mains supply the electrical load transfers back and the generator reverts back to standby until the next outage. Most generators run on diesel, natural gas or liquid propane gas.

Before recommending any products or services, we will always discuss site requirements with you to give us a greater understanding of your needs. In general however, it is likely that you will need one of the following products and services for grid resilience:

  • Backup generator.

  • Battery replacement.

  • Battery based Distributed Storage Solutions (DSS).

  • UPS maintenance.

  • Generator maintenance.

  • Spare parts.

A generator provides standby power until the mains power can be reinstated during a power outage. This is supported by a UPS (Uninterruptible Power Supply) which ensures a seamless transition from your mains power to your backup power supply. Batteries provide power to your UPS and generator.

The backup power you require depends on a number of factors and will be unique to your circumstances. When considering your needs you should think about the following:

Critical loads

What equipment or part of your estate is it that directly affects your ability to maintain key operations and that must be kept running during a mains power supply failure, for example a data centre’s servers or life support equipment in a hospital.

Essential loads

What is it that provides secondary support services that even though they aren’t operationally critical, may still be required for health and safety reasons, such as emergency lighting. These loads must still have some form of backup but do not require uninterrupted power, so can be allowed to fail or ride through the time it takes for a generator to start.

Non-essential loads

Finally, there is the equipment and parts of your organisation that you can afford to lose when the mains power supply fails, for example printers, general lighting and desk fans.


Grid resilience means the ability to resume operations quickly following a disruption such as a power outage or blackout. This stability is important for sectors such as healthcare which rely on life saving equipment. Grid resiliency is also the ability to cope with increasing demand which is increasingly significant as we transition to net zero and our demands for electricity increase.

When a power outage occurs, a UPS will immediately switch to battery power to provide a continuous power supply to connected equipment. However, the UPS batteries have a limited runtime, so a generator is needed to provide long-term power protection. When initiated the UPS will send a signal to the generator to start up. Once the generator is running, the UPS will switch to generator power. When the power outage is over and grid power is restored, the UPS will return to utility power and recharge its batteries. The generator will then shut down.

Generators can be put into containers. There are a number of benefits to doing this including:

  • Easier transportation and installation making them ideal for temporary or remote applications.

  • They are more secure as typically they are lockable which prevents unauthorised access.

  • Containerised generators are protected from the weather

  • Noise is reduced as they can be fitted with soundproofing materials

Sizing your generator correctly is important to ensure you can power your equipment. To size an industrial generator you should consider the following factors:

  • What equipment the generator will be powering?: make list of the items that need to be powered and determine the starting and running wattage for each.

  • What is the total load requirement?: add up the starting and running wattage for all the equipment

  • What is the total load factor?: the load factor is the ratio of the average load to the peak load

  • What is the surge capacity?: The surge capacity is the amount of extra power that the generator can provide for a short period of time to equipment. It is typically 10-25% of the rated capacity of the generator.

Generator installation

Once the generator has been installed successfully, it will require further attention before the system will operate as intended. ‘Commissioning’ refers to the tests that are carried out to ensure that the generator works as intended. Certain components need to be completed before the generator is ready for commissioning. Upon completion, each component needs to be verified to ensure the generator is fully operational to achieve optimum performance.

Commissioning generally means booting up the generator system, which needs to be tested to make sure that it works as it was designed to. Generators feature complex mechanics and there are certain components that have to be checked prior to the boot-up in order for the system to be ready for commissioning. Once all components have been verified, typically the boot-up should run smoothly and will not require additional trips.

This depends on the load being supported and whether the unit connects across site supporting multiple loads. For dedicated loads and locations single units are often utilised, however we would recommend for single units there is a connection for routine load bank testing and a temporary hire unit should one be required. For centralised standby generators these are normally configured in an N+ configuration, to ensure the most critical loads can be supported in the event of servicing or failure of one of the generator units.

Proper attention to mechanical and electrical engineering details will assure a satisfactory power system installation. Factors to be considered in the installation of a generator are:

  • Access and maintenance location

  • Floor loading

  • Vibration transmitted to building and equipment

  • Engine exhausts piping and insulation

  • Noise reduction

  • Method of engine cooling

  • Size and location fuel tank

  • Local, national and insurance regulations

  • Smoke and emissions requirements

A generator is a very large piece of technical equipment that features many complex components, each of which could face inefficiencies due to a number of reasons. Generator commissioning will ensure that each and every component works as it should, achieving a successful generator installation without the need for an additional trip.

Generator servicing & maintenance

OFTEC inspections should be carried out annually and we suggest timing the inspection with regular servicing or maintenance as this can save your company money against multiple call outs. Upon a pass the OFTEC certificate is valid for 5 years.

Without proper maintenance, generators can fall prey to failures and power outages. Generator manufacturers generally recommend that a generator should be serviced after the first year of installation and on an annual basis there on after. We also suggest carrying out regular visual inspections to keep on top of any faults within your generator that may require maintenance sooner than anticipated.

Factors that may result in more frequent maintenance include:

Exposure to extreme temperatures and weather can damage components of the generator.
Airborne contaminants such as dust and sand may infiltrate the generator, causing damage to its internal components.


Excess usage: Most diesel generators are designed to provide backup power. Should a standby generator be used for prime power, care should be taken to ensure the generator is inspected frequently and only used for as long as it is required.


Lack of usage: Similarly, if a generator is left dormant longer than expected, engine exercise should be carried out to avoid battery failure.

To comply with British Standards, the base material should be either:

Concrete at least 100mm thick.
Paving stones at least 50mm thick.
Stonework at least 50mm thick.

The overall size of the base should be larger than the oil storage tank and any integral oil storage tank bund, so that when the oil storage tank is installed, the base has a clear projection of a minimum of 300mm around all sides of the oil storage tank.

We have no doubt of your trained eye, but an OFTEC inspection provides assurance that your tank is fine, and can function properly. When exposed to the elements, steel pipes can rust, and plastic becomes brittle. Similarly, poor installation can put large amounts of pressure on the tank, leading to leaks and pollution. Having your oil tanks inspected will considerably reduce any risk, and leave you less liable should an issue occur.

There are lots of things you can do to prevent oil theft, such as:

  • Check the fuel levels regularly to make sure that none has gone missing.

  • Lock the tank. Most tanks can be locked at the inspection cover or a lockable filler cap can be retro fitted to existing oil tanks.

  • Install automatic movement sensor security lighting around the tank.

An OFTEC Inspection from Dale ensures compliance with industry regulations and OFTEC-approved controls. An extensive inspection, it covers the following functions:

Tank Features

Taking its location, condition and construction into account, we also look at the type of oil used, its age and identification.

Condition of Pipework

From your gathering pipelines and your feeder pipelines through to your transmission pipelines and distribution pipelines, we look out for corrosion, cracks, environmental pressure and any potential damage from installation or excavation.

Corrosion, one of the most common causes of pipeline issues, can be of 3 types:

External Corrosion

Usually arising from external conditions of heat, water or pressure combined with contact with corrosive materials such as acidic soil.

Internal Corrosion

Resulting from the transportation of a corrosive or pressurised product.

Corrosion Defects

Due to physical characteristics such as pipeline shape or form, or from issues resulting from handling or installation.

An OFTEC inspection will cover all of this, as well as check weld integrity, look out for cracks and fractures in the pipelines, consider pipe alignment and wall thickness, and that everything is in working order.

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Condition of Tank Supports and Base Quality

A visual check of the base and supports of the fuel storage tank for cracking and subsidence is very important. An uneven base, or incorrectly fitted base, could cause an oil tank to succumb to pressure, especially when full. This could lead to stretching and the formation of cracks and splits. We can check for all of this, and make recommendations on base types too.

Bund Compliance

Also known as ‘secondary containment’, a bund is an area around a tank and its ancillary equipment designed to contain any loss of oil and to prevent any environmental impact. A bund must hold at least 110% of the volume of oil the tank is designed to contain, with that extra 10% taking into account everything from sudden tank failures and leaks through to loss of the total tank contents, overfilling and containment of fire-fighting agents.

Bunds may also be impermeable to oil and water with no direct outlet such as a pipe, valve or other opening to drain the system.

Inspection of Gauges, Level Alarms and Fire Valves

For example, sight gauges will be checked that they:

  • Have a bracket along the length of the sight gauge tube that fixes the tube to the tank so that it can’t be knocked over.

  • Are fitted with a valve that closes automatically when the gauge is not in use.

Inspection of Associated Ancillary Equipment

If your fixed tank has a pump, we’ll check that:

  • Your pump has a valve in its feed line that prevents the tank contents emptying if there’s damage to the pump or feed line.

  • It’s positioned to reduce the risk of damage by impact – for example, away from tanker turning circles and fork lift truck routes.

  • It’s protected against oil theft – for example, by keeping the pump in a lockable cage.

Inspection of Overfill and Impact Protection

If the vent pipe of a fixed tank, and the tank itself, cannot be seen from where the tank is filled, we’ll check that an automatic overfill prevention device has been fitted to the tank. This may be a device that cuts off the flow of oil to the tank when it’s full, a sounding alarm or fixed tank probe that sends a signal to alert the person filling the tank when the tank is full.

Inspection of Fill Points, Draw Off Points and Vents

Fill pipes, draw off pipes and overflow pipes must be positioned in a location that minimises the risk of damage by impact – for example away from driveways, tanker turning circles, and fork lift truck routes.

Also, if you fill your tank or container through a remote pipe (i.e. you fill your container at a fill point that’s outside the bund/secondary containment), we’ll check that you’re using a drip tray to catch any oil that may be spilled during its delivery.

If your fixed tank has any vent pipes, taps or valves, we’ll also check:

  • That the vent pipes, taps or valves are within the valve.

  • They are arranged so that any oil coming out of them will go vertically down the bund.

  • That taps and valves have a lock and can be locked when not in use.

We will also discuss your processes and procedures for operation, filling and spill response, and ensure that environmental issues and fire issues are at the forefront of your business.


Fuel polishing involves a number of steps, all of which help to keep your secure power solution at optimum performance.

  • Regular Sampling and Testing – Fuel sampling on site to access fuel cleanliness and fuel quality.

  • Fuel Treatment – Identify and deliver the most appropriate solution to bring your fuel back to optimum condition.

  • Fuel Storage and Handling Procedures – Advise on handling and storage including tank cleaning, testing, repair and replacement.

  • Fuel Maintenance – Fuel polishing systems are available to suit any tank in any application. All systems operate “stand alone” with basic 24/7 digital timers or advanced remote control and monitoring.

Knowing exactly which parts are needed is of vital importance to successfully repairing any damaged or faulty generators. First, you must identify which part needs replacing, then you need to find the corresponding part for the exact make and model of your generator. Our dedicated team use a parts identification system and an advanced ordering system to get you the right part when you need it most.

It is a common misconception that fuel can be stored in bulk for long periods without requiring any maintenance. However, this is simply not true. Like most substances, fuel can easily become contaminated when left for a considerable amount of time. Microbes can be particularly troublesome and if left untreated, the contaminated fuel could jeopardise the performance of your generator and ultimately lead to power downtime.

OFTEC (Oil Firing Technical Association) is the industry body that governs the assessment and certification of fuel storage and associated pipework.

An OFTEC Inspection concerning the fuel tank is an assessment of the tank and pipework ensuring the health and safety of individuals and the environment. By carrying out such an inspection by a qualified engineer you are minimising the risks and associated penalties.

To keep your systems up and running, original spare parts are needed to maintain your generator. Our quality OEM parts, from air filters to complete engine or alternator replacements, keep your generators running for longer. These parts are also covered by a warranty to give you even more longevity out of your generator.

No matter the make, model or manufacturer, most generators are going to need some sort of repair. Ensuring that you have the correct parts to carry out vital repairs can be the difference between routine maintenance and a full system shutdown. Ensure that you are stocked and prepared for any faults.

A controlled, load bank test, checks that all aspects of the system are working correctly, including the entire electrical supply infrastructure (cabling, switchgear, generator, fuses) ensuring your system is capable of taking on a full load during a power outage. Back-up power will only work if it can support the required critical power load and therefore, we would always recommend regular load bank testing if the generator is not being used on the building load.

Depending on the size and complexity of your site, as well as the number of tanks, the inspection should take from 1-3 days to complete. Upon completion, a bound and electronic copy of the report will be given to you, and recommendations made about what to do going forward.

Severe actions can be taken against companies that have not complied to regulations including fines, associated costs of production loss and cleaning and imprisonment. These are based on several factors concerning the overall damage of the spill, number of litres spilt and the duration it took place and of course the direct and indirect impact on the environment. Records have seen fines reach in the region of c£8M in recent years.

The Environment Agency reports that there are approximately 3000 pollution incidents involving oil and fuels every year in the UK, making this the second most frequent type of pollutant of inland waters in the UK, after plastic. On average, an oil spill can cost a business up to £8 million in fines, clean up charges and production losses. Not only this, but if you pollute, as stated in the Pollution Prevention Guidelines, ‘’you could get an unlimited fine, go to prison for up to 5 years, or both’’. You may also have to pay for the whole cost of the clean-up. There could also be additional costs in terms of compensation to third parties, higher insurance premiums or loss of contracts. With damage to your reputation too – it’s certainly something that any business owner should seek to avoid. Luckily with an OFTEC inspection, you can reduce the risk of oil spills and oil leakages from both your generators and fuel tanks.

Recommended annually, an OFTEC inspection from Dale ensures that yours is carried out by an OFTEC-registered engineer or OFTEC-registered technician. By carrying out a tank inspection by a qualified engineer you are minimising the risks and associated penalties that come with an oil spill or oil leakage, and should you pass, you’ll receive an OFTEC certificate that is valid for 5 years.

Covering everything from the condition, construction, type of oil and identification of your oil tank through to bund compliance, gauge inspections and environmental considerations, our OFTEC inspections are thorough, reliable and industry-compliant. You can be certain that after an OFTEC inspection with Dale Power Solutions, you will have the information and tools you need to prevent oil spills and oil leakages, and actionable advice for increased protection, and health and safety.

Along with diesel check fuel testing, clear tank cleaning and diesel defence fuel polishing, we can handle it all. To learn more about what our OFTEC inspections involve and just what we can do for you, please contact us today on 0330 999 3000. We’ve carried out tank inspections across the UK, in areas including Liverpool, London, Glasgow and Cardiff, so no distance is too great for us.

Generators require regular servicing and without this there are a number of risks you face. Most serious is a lack of power. Failure to identify problems can lead to the generator not working when you need it most. Without regular upkeep, you can find yourself with more serious repairs that are costly to fix. The generator can also become dangerous with risk of harmful emissions, electrocution and fire. Linked to this is a failure in legal compliance and associated fines.

Generator maintenance includes everything from exhaust treatment and OFTEC qualified fuel tank inspections, through to fuel management and radiator cleaning. It also includes load bank testing to ensure your standby generator can operate at its optimum kW output, as well as control system management and remote monitoring services that allow your maintenance provider to access to your generator from afar so they can make critical decisions should an issue occur.

OFTEC inspections provided by Dale are carried out by registered technician/engineer.

Fuel management is necessary for the upkeep of your fuel, as diesel can often be subject to contamination over time. It is just as important to maintain your fuel as it is your generator, as your fuel could jeopardise the efficiency of the whole system.

About UPS systems

When disruption to your power occurs it will provide instantaneous protection by immediately resorting to the onboard battery which forms part of the uninterruptible power supply.

An uninterruptible power supply (UPS) provides a source of power for the equipment it protects. If there is a disruption to power, the UPS has an on-board battery to automatically supply to electrical equipment until the disruption is over or back-up generators kick-in.

The UK electricity system has experienced high levels of grid resilience historically – offering a high degree of confidence to businesses and consumers that power will be available 24 hours a day, 7 days a week, 365 days per year. However, we must be able to respond to the more severe, less frequent events to ensure power supplies are maintained or restored quickly following such an event. Therefore, grid resilience is ‘the ability to withstand and reduce the magnitude and/or duration of disruptive events, which includes the capability to anticipate, absorb, adapt to, and/or rapidly recover from such events‘.

Before recommending any products or services, we will always discuss site requirements with you to give us a greater understanding of your needs. In general however, it is likely that you will need one of the following products and services for grid resilience:

  • Backup generator.

  • Battery replacement.

  • Battery based Distributed Storage Solutions (DSS).

  • UPS maintenance.

  • Generator maintenance.

  • Spare parts.

You may have generators on-site but in the event the power supply fails you may have systems where you can’t afford to have down time whilst the generator kicks-in. A uninterruptible power supply (UPS) can save your operations and prevent the loss of critical data by keeping your equipment running in the event of a power outage.

A generator provides standby power until the mains power can be reinstated during a power outage. This is supported by a UPS (Uninterruptible Power Supply) which ensures a seamless transition from your mains power to your backup power supply. Batteries provide power to your UPS and generator.

The backup power you require depends on a number of factors and will be unique to your circumstances. When considering your needs you should think about the following:

Critical loads

What equipment or part of your estate is it that directly affects your ability to maintain key operations and that must be kept running during a mains power supply failure, for example a data centre’s servers or life support equipment in a hospital.

Essential loads

What is it that provides secondary support services that even though they aren’t operationally critical, may still be required for health and safety reasons, such as emergency lighting. These loads must still have some form of backup but do not require uninterrupted power, so can be allowed to fail or ride through the time it takes for a generator to start.

Non-essential loads

Finally, there is the equipment and parts of your organisation that you can afford to lose when the mains power supply fails, for example printers, general lighting and desk fans.


Grid resilience means the ability to resume operations quickly following a disruption such as a power outage or blackout. This stability is important for sectors such as healthcare which rely on life saving equipment. Grid resiliency is also the ability to cope with increasing demand which is increasingly significant as we transition to net zero and our demands for electricity increase.

WIMES (Water Industry Mechanical and Electrical Specifications) UPS (uninterruptible power supply) is a robust critical power system built for harsh atmospheres such a dusty environments, moisture and humidity, as well as extremes in temperature and sites where robust solutions are required. They are available for both industrial and commercial applications.

Containerised UPS are housed in standard shipping containers. This makes them easy to transport, and install, and they can be used in a variety of locations, both indoors and outdoors. They typically include all the components necessary for power protetion, such as: UPS system, batteries, bypass switch, air conditioning, power monitoring and fire supression. We can help you customise the UPS to meet the needs of a specific application, such as adding additional batteries for longer runtime or paralleling multiple UPS systems for increased redundancy.

When a power outage occurs, a UPS will immediately switch to battery power to provide a continuous power supply to connected equipment. However, the UPS batteries have a limited runtime, so a generator is needed to provide long-term power protection. When initiated the UPS will send a signal to the generator to start up. Once the generator is running, the UPS will switch to generator power. When the power outage is over and grid power is restored, the UPS will return to utility power and recharge its batteries. The generator will then shut down.

UPS installation

Upon installation, the UPS requires further attention before it is fully operational. Certain connections, components and peripherals need to be checked and tested to ensure that the UPS works as designed. Once these checks have been completed, the UPS can then be commissioned and will operate at optimum performance without the need for more tests.

Site assessment – Detailed site assessments are carried out to determine how your equipment can be delivered and installed on site. In the instance where sites involve additional requirements depending on the location, we can arrange anything that you need.

Delivery – We arrange the safe transport and delivery of your equipment to any site around the world at a time that suits the customer.

Installation – We manage every aspect of the installation to ensure that your equipment is efficiently and fully operational to your requirements.

System testing – Once installed, your equipment is thoroughly tested and commissioned to the customer’s specification ready for hand over.

End user training – We can train you to operate your equipment safely, so that you can make configuration changes when you want.

UPS commissioning is more complex than simply switching it on after it has been installed. Instead, there are a number of connections, components and peripherals that need testing prior to switching the UPS on. Commissioning refers to a boot-up process, which relies upon the success of individual components working efficiently as intended.

UPS commissioning is more complex than simply switching it on after it has been installed. Instead, there are a number of connections, components and peripherals that need testing prior to switching the UPS on. Commissioning refers to a boot-up process, which relies upon the success of individual components working efficiently as intended.

Yes, a containerised UPS (uninterruptible power supply) system can be installed on a roof, car park or where space is limited.

UPS Servicing & Maintenance

Put simply, yes. A generator service and/or UPS service can determine any existing and future power supply problems that could impact equipment performance. Planned and preventative maintenance can extend machine efficiency, assures optimal working conditions and conserves the life span of the equipment. Along with determining when replacements will be needed for a seamless transition, planned and preventative maintenance is a far cheaper solution compared to complete equipment replacement.

Nearly all electronic and electrical equipment, regardless of how well-designed and built it is, will eventually break down unless it is maintained according to the manufacturer’s instructions. Wear and tear is common with electrical equipment, but it has severe consequences for UPS systems and generators, where financial, reputation and potentially life-threatening damage comes into play. It is highly recommended that as a minimum you service your power systems annually in order to maintain its working lifecycle. Our service contracts include everything from AC maintenance, DC maintenance and generator maintenance through to analogue metering, intelligent monitoring, remote monitoring and spare parts, as well as callouts, minor fault fixes and access to our customer portal, where you can access management information reports and other key details on your power supply systems.

UPS manufacturers usually recommend that UPS maintenance should be carried out within the first year of installation, and then annually from there on out as a minimum. However, if you notice any issues with your UPS system beforehand, then you should always contact your power supply partner as soon as possible to rectify them, and to ensure that UPS repairs are carried out swiftly and efficiently. The right check up could be the difference between business continuity and costly downtime, so UPS maintenance is always worth the time and effort.

Batteries have a typical lifespan of 3 – 5 years, with causes of battery failure including loss of electrolyte and inaccurate float charge voltage. However, factors such as battery chemistry, battery cycling and suitable storage conditions can greatly affect how long your battery lasts. We strongly recommend carrying out battery maintenance tests to keep abreast of any battery faults or issues, as batteries are one of the most integral parts of your UPS system. Battery testers can visit your business, site or facility every 6 months to a year, ensuring you’re always in control of your critical power equipment.

As batteries go unused, with no charging schedule, their battery life will decrease. When it comes to the self-discharge characteristics of lead-acid batteries for example, it is important that they are charged after 6-10 months of battery storage. Otherwise, permanent loss of capacity will occur between 18-30 months.

UPS maintenance is extensive and far-reaching, and when carried out by our technical team, is highly successful. UPS maintenance involves the testing and inspection of your UPS systems, and making any necessary adjustments for power continuity. A visual inspection of the area surrounding your UPS and battery equipment will typically be carried out first, with UPS maintenance seeking to identify any operational abnormalities. Following this, we can carry out battery maintenance, battery management, enclosure maintenance and load bank testing, as well as control system management, voltage testing, and replace faulty parts with new ones. This can include batteries, capacitors, alternators and fans.

Remote monitoring systems allow you to check up on your UPS and generator systems from a computer or smart device from a remote location. Your device connects to offer reports and data on the functionality of your UPS and generator systems. Featured functions include checking vital systems, turning generators in the field on and off and viewing various statistics.

The standard lifespan for VRLA batteries is 3 – 5 years. However, expected battery life can vary dependent on environmental conditions, number of discharge cycles, and suitable maintenance. Having a regular schedule of battery maintenance and battery monitoring to ensure that you know when your batteries are reaching their end-of-life is always a good idea.

The IEE defines ‘end of useful life’ for a UPS battery as the point where it can no longer supply 80% of its rated capacity in ampere-hours. When your battery reaches 80% of its rated capacity, the ageing process accelerates and the battery should be replaced.

A bypass automatically and instantaneously transfers the load to the mains electricity supply when there’s an internal fault or failure with your UPS system. This allows general servicing to continue without causing disruption to the load. In effect, running on a bypass circumvents the UPS (i.e. the rectifier, batteries and inverter) and ensures power continuity while the UPS is fixed or swapped out.

Internal static bypass switches should not be confused with an external maintenance bypass switch, which is an option that enables the UPS to be powered down manually for maintenance to be carried out while the critical load is powered directly from the mains. External maintenance bypass switches tend to be mechanical in the form of a wraparound or rotary switch or set of circuit breakers.

Having constant access to vital statistics on efficiency, fuel tank levels, power monitoring equipment and HVAC infrastructure keeps you in the know at all times. Our system lets you spot any faults, errors or changes in the system, changing a system-shutdown level fault to a minor repair, stopping any potential downtime.

The critical nature of UPS systems means that they need to be serviced regularly to ensure that the internal workings of the units and their batteries are functioning correctly. More than this, UPS maintenance is needed to prevent failure-induced downtime, which could also compromise the equipment the UPS systems have been installed to protect. UPS maintenance can therefore secure confidential information and data and reduce the likelihood of damaging lags or sags in a power supply that could hinder access to this. Ensuring optimum UPS system efficiency – UPS maintenance evaluates your whole system and provides support with prolonged lifecycle management.

To ensure that all systems are running at optimum levels, it’s imperative to have a system that lets you easily monitor and control your UPS or generator’s performance. Remote monitoring allows you to keep an eye out for any potential faults before they occur, drastically reducing downtime and any repair costs.

Replacement batteries can be purchased for UPS. Replacing the batteries every 3-5 years can extend the lifespan of your UPS. We can advise you on the best battery for your product. We sell a wide range of batteries including: valve regulated lead acid batteries; flooded lead acid batteries; flooded nickel cadmium batteries (NiCd batteries); gas recombination low maintenance NiCd batteries; and lithium ion stationary batteries.

Servicing & Maintenance

Put simply, yes. A generator service and/or UPS service can determine any existing and future power supply problems that could impact equipment performance. Planned and preventative maintenance can extend machine efficiency, assures optimal working conditions and conserves the life span of the equipment. Along with determining when replacements will be needed for a seamless transition, planned and preventative maintenance is a far cheaper solution compared to complete equipment replacement.

OFTEC inspections should be carried out annually and we suggest timing the inspection with regular servicing or maintenance as this can save your company money against multiple call outs. Upon a pass the OFTEC certificate is valid for 5 years.

Nearly all electronic and electrical equipment, regardless of how well-designed and built it is, will eventually break down unless it is maintained according to the manufacturer’s instructions. Wear and tear is common with electrical equipment, but it has severe consequences for UPS systems and generators, where financial, reputation and potentially life-threatening damage comes into play. It is highly recommended that as a minimum you service your power systems annually in order to maintain its working lifecycle. Our service contracts include everything from AC maintenance, DC maintenance and generator maintenance through to analogue metering, intelligent monitoring, remote monitoring and spare parts, as well as callouts, minor fault fixes and access to our customer portal, where you can access management information reports and other key details on your power supply systems.

UPS manufacturers usually recommend that UPS maintenance should be carried out within the first year of installation, and then annually from there on out as a minimum. However, if you notice any issues with your UPS system beforehand, then you should always contact your power supply partner as soon as possible to rectify them, and to ensure that UPS repairs are carried out swiftly and efficiently. The right check up could be the difference between business continuity and costly downtime, so UPS maintenance is always worth the time and effort.

Without proper maintenance, generators can fall prey to failures and power outages. Generator manufacturers generally recommend that a generator should be serviced after the first year of installation and on an annual basis there on after. We also suggest carrying out regular visual inspections to keep on top of any faults within your generator that may require maintenance sooner than anticipated.

Factors that may result in more frequent maintenance include:

Exposure to extreme temperatures and weather can damage components of the generator.
Airborne contaminants such as dust and sand may infiltrate the generator, causing damage to its internal components.


Excess usage: Most diesel generators are designed to provide backup power. Should a standby generator be used for prime power, care should be taken to ensure the generator is inspected frequently and only used for as long as it is required.


Lack of usage: Similarly, if a generator is left dormant longer than expected, engine exercise should be carried out to avoid battery failure.

Batteries have a typical lifespan of 3 – 5 years, with causes of battery failure including loss of electrolyte and inaccurate float charge voltage. However, factors such as battery chemistry, battery cycling and suitable storage conditions can greatly affect how long your battery lasts. We strongly recommend carrying out battery maintenance tests to keep abreast of any battery faults or issues, as batteries are one of the most integral parts of your UPS system. Battery testers can visit your business, site or facility every 6 months to a year, ensuring you’re always in control of your critical power equipment.

To comply with British Standards, the base material should be either:

Concrete at least 100mm thick.
Paving stones at least 50mm thick.
Stonework at least 50mm thick.

The overall size of the base should be larger than the oil storage tank and any integral oil storage tank bund, so that when the oil storage tank is installed, the base has a clear projection of a minimum of 300mm around all sides of the oil storage tank.

We have no doubt of your trained eye, but an OFTEC inspection provides assurance that your tank is fine, and can function properly. When exposed to the elements, steel pipes can rust, and plastic becomes brittle. Similarly, poor installation can put large amounts of pressure on the tank, leading to leaks and pollution. Having your oil tanks inspected will considerably reduce any risk, and leave you less liable should an issue occur.

As batteries go unused, with no charging schedule, their battery life will decrease. When it comes to the self-discharge characteristics of lead-acid batteries for example, it is important that they are charged after 6-10 months of battery storage. Otherwise, permanent loss of capacity will occur between 18-30 months.

There are lots of things you can do to prevent oil theft, such as:

  • Check the fuel levels regularly to make sure that none has gone missing.

  • Lock the tank. Most tanks can be locked at the inspection cover or a lockable filler cap can be retro fitted to existing oil tanks.

  • Install automatic movement sensor security lighting around the tank.

Fuel polishing involves a number of steps, all of which help to keep your secure power solution at optimum performance.

  • Regular Sampling and Testing – Fuel sampling on site to access fuel cleanliness and fuel quality.

  • Fuel Treatment – Identify and deliver the most appropriate solution to bring your fuel back to optimum condition.

  • Fuel Storage and Handling Procedures – Advise on handling and storage including tank cleaning, testing, repair and replacement.

  • Fuel Maintenance – Fuel polishing systems are available to suit any tank in any application. All systems operate “stand alone” with basic 24/7 digital timers or advanced remote control and monitoring.

UPS maintenance is extensive and far-reaching, and when carried out by our technical team, is highly successful. UPS maintenance involves the testing and inspection of your UPS systems, and making any necessary adjustments for power continuity. A visual inspection of the area surrounding your UPS and battery equipment will typically be carried out first, with UPS maintenance seeking to identify any operational abnormalities. Following this, we can carry out battery maintenance, battery management, enclosure maintenance and load bank testing, as well as control system management, voltage testing, and replace faulty parts with new ones. This can include batteries, capacitors, alternators and fans.

Knowing exactly which parts are needed is of vital importance to successfully repairing any damaged or faulty generators. First, you must identify which part needs replacing, then you need to find the corresponding part for the exact make and model of your generator. Our dedicated team use a parts identification system and an advanced ordering system to get you the right part when you need it most.

It is a common misconception that fuel can be stored in bulk for long periods without requiring any maintenance. However, this is simply not true. Like most substances, fuel can easily become contaminated when left for a considerable amount of time. Microbes can be particularly troublesome and if left untreated, the contaminated fuel could jeopardise the performance of your generator and ultimately lead to power downtime.

OFTEC (Oil Firing Technical Association) is the industry body that governs the assessment and certification of fuel storage and associated pipework.

An OFTEC Inspection concerning the fuel tank is an assessment of the tank and pipework ensuring the health and safety of individuals and the environment. By carrying out such an inspection by a qualified engineer you are minimising the risks and associated penalties.

Load bank testing is typically carried out during preventive maintenance, and is a way of validating the correct operational performance and battery autonomy of your generator. Testing this under load conditions, a load test can determine battery condition and when they are approaching their end of working life, not holding a charge or are about to fail. This allows a load bank tester to replace them in advance of breakdown or failure, ensuring that critical power supply is always available.

A load bank test will provide timely identification of problems with the generator and an indication of remedial actions that should be taken. In the case of a standby generator, a load bank test will indicate the engine’s ability to provide the required power; the alternator’s capability to provide the required voltage stability; stable frequency; efficiency of control systems under varying conditions of load; performance of the whole system; oil and fuel pressure. It will also help remove deposits from pistons, engine castings and exhausts, identify potential weaknesses, record results and any work that needs to be done.

Remote monitoring systems allow you to check up on your UPS and generator systems from a computer or smart device from a remote location. Your device connects to offer reports and data on the functionality of your UPS and generator systems. Featured functions include checking vital systems, turning generators in the field on and off and viewing various statistics.

The standard lifespan for VRLA batteries is 3 – 5 years. However, expected battery life can vary dependent on environmental conditions, number of discharge cycles, and suitable maintenance. Having a regular schedule of battery maintenance and battery monitoring to ensure that you know when your batteries are reaching their end-of-life is always a good idea.

The IEE defines ‘end of useful life’ for a UPS battery as the point where it can no longer supply 80% of its rated capacity in ampere-hours. When your battery reaches 80% of its rated capacity, the ageing process accelerates and the battery should be replaced.

A bypass automatically and instantaneously transfers the load to the mains electricity supply when there’s an internal fault or failure with your UPS system. This allows general servicing to continue without causing disruption to the load. In effect, running on a bypass circumvents the UPS (i.e. the rectifier, batteries and inverter) and ensures power continuity while the UPS is fixed or swapped out.

Internal static bypass switches should not be confused with an external maintenance bypass switch, which is an option that enables the UPS to be powered down manually for maintenance to be carried out while the critical load is powered directly from the mains. External maintenance bypass switches tend to be mechanical in the form of a wraparound or rotary switch or set of circuit breakers.

To keep your systems up and running, original spare parts are needed to maintain your generator. Our quality OEM parts, from air filters to complete engine or alternator replacements, keep your generators running for longer. These parts are also covered by a warranty to give you even more longevity out of your generator.

No matter the make, model or manufacturer, most generators are going to need some sort of repair. Ensuring that you have the correct parts to carry out vital repairs can be the difference between routine maintenance and a full system shutdown. Ensure that you are stocked and prepared for any faults.

A controlled, load bank test, checks that all aspects of the system are working correctly, including the entire electrical supply infrastructure (cabling, switchgear, generator, fuses) ensuring your system is capable of taking on a full load during a power outage. Back-up power will only work if it can support the required critical power load and therefore, we would always recommend regular load bank testing if the generator is not being used on the building load.

Having constant access to vital statistics on efficiency, fuel tank levels, power monitoring equipment and HVAC infrastructure keeps you in the know at all times. Our system lets you spot any faults, errors or changes in the system, changing a system-shutdown level fault to a minor repair, stopping any potential downtime.

The critical nature of UPS systems means that they need to be serviced regularly to ensure that the internal workings of the units and their batteries are functioning correctly. More than this, UPS maintenance is needed to prevent failure-induced downtime, which could also compromise the equipment the UPS systems have been installed to protect. UPS maintenance can therefore secure confidential information and data and reduce the likelihood of damaging lags or sags in a power supply that could hinder access to this. Ensuring optimum UPS system efficiency – UPS maintenance evaluates your whole system and provides support with prolonged lifecycle management.

To ensure that all systems are running at optimum levels, it’s imperative to have a system that lets you easily monitor and control your UPS or generator’s performance. Remote monitoring allows you to keep an eye out for any potential faults before they occur, drastically reducing downtime and any repair costs.

Depending on the size and complexity of your site, as well as the number of tanks, the inspection should take from 1-3 days to complete. Upon completion, a bound and electronic copy of the report will be given to you, and recommendations made about what to do going forward.

Severe actions can be taken against companies that have not complied to regulations including fines, associated costs of production loss and cleaning and imprisonment. These are based on several factors concerning the overall damage of the spill, number of litres spilt and the duration it took place and of course the direct and indirect impact on the environment. Records have seen fines reach in the region of c£8M in recent years.

Replacement batteries can be purchased for UPS. Replacing the batteries every 3-5 years can extend the lifespan of your UPS. We can advise you on the best battery for your product. We sell a wide range of batteries including: valve regulated lead acid batteries; flooded lead acid batteries; flooded nickel cadmium batteries (NiCd batteries); gas recombination low maintenance NiCd batteries; and lithium ion stationary batteries.

Generator maintenance includes everything from exhaust treatment and OFTEC qualified fuel tank inspections, through to fuel management and radiator cleaning. It also includes load bank testing to ensure your standby generator can operate at its optimum kW output, as well as control system management and remote monitoring services that allow your maintenance provider to access to your generator from afar so they can make critical decisions should an issue occur.

OFTEC inspections provided by Dale are carried out by registered technician/engineer.

Fuel management is necessary for the upkeep of your fuel, as diesel can often be subject to contamination over time. It is just as important to maintain your fuel as it is your generator, as your fuel could jeopardise the efficiency of the whole system.

Batteries

No – you should never mix batteries by type, battery age or manufacturer for that matter. Always remove and replace all batteries in your UPS or generator at the same time, and follow the manufacturer’s recommendations when it comes to which batteries to use.

Starter Batteries: Owing to the harsh starting conditions (high discharge for the initial start and then high charge currents from the charge alternators for a rapid recharge) and bearing in mind that they are positioned near an engine, means that starter batteries do not have the lifespan they would have if they were connected to a UPS. Battery manufacturers therefore do not provide a recommendation for changing. We can, and do advise, depending on the battery type, environment and application. A reminder to change batteries can be set in most cases to the UPS operating software.

Batteries have a typical lifespan of 3 – 5 years, with causes of battery failure including loss of electrolyte and inaccurate float charge voltage. However, factors such as battery chemistry, battery cycling and suitable storage conditions can greatly affect how long your battery lasts. We strongly recommend carrying out battery maintenance tests to keep abreast of any battery faults or issues, as batteries are one of the most integral parts of your UPS system. Battery testers can visit your business, site or facility every 6 months to a year, ensuring you’re always in control of your critical power equipment.

As batteries go unused, with no charging schedule, their battery life will decrease. When it comes to the self-discharge characteristics of lead-acid batteries for example, it is important that they are charged after 6-10 months of battery storage. Otherwise, permanent loss of capacity will occur between 18-30 months.

The standard lifespan for VRLA batteries is 3 – 5 years. However, expected battery life can vary dependent on environmental conditions, number of discharge cycles, and suitable maintenance. Having a regular schedule of battery maintenance and battery monitoring to ensure that you know when your batteries are reaching their end-of-life is always a good idea.

Hot-swappable batteries can be changed out while the UPS power supply system is running. User-replaceable batteries are typically found in smaller UPS systems and require no training nor tools to replace. Batteries can be both hot-swappable and user-replaceable.

The IEE defines ‘end of useful life’ for a UPS battery as the point where it can no longer supply 80% of its rated capacity in ampere-hours. When your battery reaches 80% of its rated capacity, the ageing process accelerates and the battery should be replaced.

Before recommending any products or services, we will always discuss site requirements with you to give us a greater understanding of your needs. In general however, it is likely that you will need one of the following products and services for grid resilience:

  • Backup generator.

  • Battery replacement.

  • Battery based Distributed Storage Solutions (DSS).

  • UPS maintenance.

  • Generator maintenance.

  • Spare parts.

Load loss, property damage and fire are all hazards associated with improper battery monitoring and battery maintenance, as is personal injury. Battery maintenance is imperative to the health and safety of your team, and the functioning of your business.

UPS batteries and generator batteries can fail for a number of reasons, including:

  • High or uneven temperatures.

  • Inaccurate float charge voltage.

  • Loose inter-cell links or connections

  • Loss of electrolyte due to drying out or a damaged case

  • Lack of battery maintenance.

Replacement batteries can be purchased for UPS. Replacing the batteries every 3-5 years can extend the lifespan of your UPS. We can advise you on the best battery for your product. We sell a wide range of batteries including: valve regulated lead acid batteries; flooded lead acid batteries; flooded nickel cadmium batteries (NiCd batteries); gas recombination low maintenance NiCd batteries; and lithium ion stationary batteries.

Battery maintenance can include everything from battery testing and battery replacement through to physical inspections, gravity checks and voltage readings, as well as checking the open circuit battery and UPS float voltages. It can also include voltage measurement, discharge testing, cell testing and battery hire.

Energy Storage

The UK electricity system has experienced high levels of grid resilience historically – offering a high degree of confidence to businesses and consumers that power will be available 24 hours a day, 7 days a week, 365 days per year. However, we must be able to respond to the more severe, less frequent events to ensure power supplies are maintained or restored quickly following such an event. Therefore, grid resilience is ‘the ability to withstand and reduce the magnitude and/or duration of disruptive events, which includes the capability to anticipate, absorb, adapt to, and/or rapidly recover from such events‘.

Before recommending any products or services, we will always discuss site requirements with you to give us a greater understanding of your needs. In general however, it is likely that you will need one of the following products and services for grid resilience:

  • Backup generator.

  • Battery replacement.

  • Battery based Distributed Storage Solutions (DSS).

  • UPS maintenance.

  • Generator maintenance.

  • Spare parts.

Grid resilience means the ability to resume operations quickly following a disruption such as a power outage or blackout. This stability is important for sectors such as healthcare which rely on life saving equipment. Grid resiliency is also the ability to cope with increasing demand which is increasingly significant as we transition to net zero and our demands for electricity increase.

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