Sustainability can often present a complex set of choices to cleaning teams and businesses that want to reduce the environmental impact of the products they use. Assessing the various merits of one perceived benefit against another can be difficult: sometimes a product that offers an advantage in one area offers significantly poorer performance when judged against a different benchmark.
All Diversey products are designed and manufactured to support improvements in sustainability. This includes making the product safer and simpler to use, reducing the amount of energy or water it consumes, reducing associated CO2 emissions, better packaging design and reduced raw materials use, and the ability to recycle more easily after use. All of these can also save costs.
When we conducted customer research into what constitutes a “green” product, almost one-in-three respondents said that it should be based on natural ingredients. At the same time over one-in-four said it should be eco-certified and one-in-seven said it must be fully biodegradable. Given that all cleaning products are already required to be biodegradable by law this is perhaps less relevant to the argument, but it could suggest some knowledge gap in the market.
Although our products already fulfil demanding sustainability criteria we recognised from our research that there are times when customers want to demonstrate the very highest levels of environmental responsibility. We responded with SURE, an innovative range of plant-based, 100 per cent biodegradable cleaning products. This is one of the Top Ten products we featured at The Cleaning Show at Excel London in March 2019.
The 18 products in the SURE range cover all routine and daily cleaning requirements in kitchens and washrooms including personal care. Each has been formulated to deliver superior professional results while maximising safety and gentleness for people and the environment. They meet typical eco-certification criteria and where applicable are all EU Ecolabel certified or have approval pending.
The entire SURE range is manufactured from environmentally-responsible plant-based ingredients from renewable resources. These ingredients are typically derived from by-products of the agri-food industry, originating from sugar beet, maize, straw bran, wheat bran and coconut. The products contain no artificial dyes, perfumes, quats, chlorine, phosphates or oxide compounds. This means they generally have lower safety classifications than conventional alternatives.
The kitchen range comprises eight products covering all routine tasks including hand dishwashing, general surface cleaning, appliance and surface degreasing and descaling, glass and grill cleaning, and surface sanitising and disinfection. The washroom range comprises four products covering daily cleaning, descaling, toilet cleaning, and floor cleaning. The personal care range comprises six antibacterial and conventional hand care products including soaps, washes and sanitisers.
SURE meets a particular requirement from the market. We enhance the sustainability credentials of the range by offering many of the products in our ultra-concentrate platforms including SmartDose and QuattroSelect. With these, water is only added at the point of use which means smaller packs are required to support the same cleaning operation. This reduces packaging requirements as well as minimising transport, handling, storage and recycling burdens. Moreover, because these platforms enable accurate and consistent preparation of high-performance solutions there is less wastage or need for repeat cleaning, all of which improves productivity and saves time and money.
A quick and simple way to improve the sustainability of almost any cleaning operation is through the adoption of ultra-concentrates. We offer these across a wide range of applications so that cleaning teams can quickly, easily and economically prepare solutions for equipment such as spray and toilet bottles, sinks, buckets or cleaning machines. The result is safe, simple and consistent high-performance cleaning while minimising wastage, packaging and chemical miles.
QuattroSelect is ideal for larger sites with centralised or intensive cleaning operations. Products are supplied in easy-to-handle pouches that are fitted into a wall-mounted dispenser. Four different formulations from the wide range available can be installed in each dispensing unit, allowing cleaning teams to select (and change whenever needed) the optimum combination for their particular application.
Solutions are automatically prepared to the correct dilution as they are dispensed into a bottle, bucket or cleaning machine by the QuattroSelect unit. Little or no decision-making or additional actions are required. All operatives need to do is press a button or squeeze a trigger and solution is dispensed directly into their bottle, bucket or cleaning machine. These closed systems also minimise the risk of people coming into contact with undiluted product, helping to enhance safety-in-use. Similar benefits are available on TASKI cleaning machines equipped with Diversey’s IntelliDose and IntelliFlow product and water management systems.
SmartDose is popular among contract and in-house cleaning teams who need ultimate convenience and portability. Its unique dual-dosing capability allows cleaning operatives to dispense two different amounts simply by turning the container’s cap to one side or the other. A single container can dispense the right amount of product into any two different accessories – bottle, bucket, sink, cleaning machine – depending on configuration. Operatives only need to carry one container to support two cleaning tasks. Processes are made even simpler – and productivity enhanced – if the product has multipurpose or multi-surface performance. A 1.4 litre container of SmartDose multi-purpose surface cleaner, for example, can prepare 280 standard 500ml trigger bottles.
One of the main reasons ultra concentrates deliver reduced cost in use is that solutions are prepared at the optimum dilution for superior and consistent performance. This reduces the need for repeat cleaning which cuts wasted time, delivering immediate productivity and efficiency gains. Considering the product contributes far less to the overall cost than the person doing the cleaning it makes sense to use products that maximise performance and productivity. Ultra concentrates also reduce the amount of product wastage because, unlike old-fashioned “pour-and-glug”, there is no guesswork involved in preparing solutions. Costs are reduced and predictable.
Ultra-concentrates also use less packaging than comparable bulk or ready-to-use products. This is because water is added at the point of use rather than the place of manufacture. A business using 100 cases of six 750ml single-use spray bottles could reduce plastic waste by up to 125.6kg (99.6% reduction) and up to 26.6kg less cardboard (98.9% reduction) by switching to Diversey’s ultra concentrates and re-usable bottles. Changes like these also reduce supply chain burdens because fewer cases need to be bought, transported and stored to support any given operation. Transportation costs can be up to 20 times less and warehouse and on-site storage requirements up to 22 times lower.
As with any cleaning product, it is important to select the right platform for each site and application to achieve optimum performance, efficiency and economy. Our ultra-concentrates for building care are available in a selection of platforms, including SmartDose and QuattroSelect, suitable for different sizes and type of site. We can advise you on the best choice or combination for any cleaning operation.
Diversey’s CleanPatch is a CE-registered Class 1 medical device that repairs damaged mattresses to an intact and hygienic state. It reduces the risk of cross-contamination and enables rapid, simple and effective mending of damaged mattresses in hospitals and care homes to extend their useful lifetime, minimise the need for expensive replacements and maximise bed availability. The patch is also used to repair stretchers in ambulances and patient transfer vehicles. This can help crews, preparation teams and Make Ready professionals keep these important vehicles in service.
Damaged mattresses and stretchers cannot be cleaned properly and could become a risk to patient safety. It is important to catch damage early and restore the surface to an intact and hygienic state in order to preserve performance characteristics and cleanability.
CleanPatch fulfils these requirements with its simple but effective design. It is made from latex-free, biocompatible materials and has been clinically tested and validated by independent infection prevention professionals. To use, the backing is simply peeled off and the patch applied in the desired position. It then provides a durable barrier which is impervious to fluids under arduous conditions. Moreover, it is resilient to all types of cleaning product which is important because mattresses and stretchers must be cleaned after each use.
CleanPatch is one of the products for healthcare that we’re highlighting at the forthcoming Knowlex (27/2 London) infection prevention event.
The fight against healthcare associated infections (HAIs) covers many areas but foremost among these are hand hygiene and surface disinfection. Studies suggest around 80 per cent of all infectious diseases are spread by touch[i]. This can be through personal contact or touching a contaminated surface. It follows that breaking this chain should help reduce the number of infections.
Healthcare cleaning teams now have access to a wider range of products to help them eliminate the pathogens that cause HAIs. These include innovative disinfectant formulations that are more effective, quicker and safer than traditional disinfectants complemented by advanced adjunct technologies such as UV-C light that can give the added level of protection against pathogens of concern.
The link between hand hygiene and the spread of infections was established long ago. Yet there is still much to be done to change the behaviour of individual healthcare workers to optimise compliance with hand hygiene at the recommended points to improve patient safety. The best healthcare sites globally have reduced their infection rates to around five per cent through diligence and a rigorous application of best practice. In the UK the average infection rate is nearer to ten per cent.
The World Health Organisation promotes hand hygiene through a number of high-profile initiatives. Its annual Clean Your Hands Day, for example, was established in 2005 and has been a global success. This and related WHO programmes are based around the concept of a multimodal hand hygiene improvement strategy. This incorporates five components or building blocks including system change, training, evaluation, awareness and an institutional safety climate that lead to long-term and sustainable improvements. This framework is complemented by the WHO’s focus on the five moments of hand hygiene – the critical times when healthcare professionals should wash their hands: before touching a patient; before a procedure; after body fluid exposure; after touching a patient; after touching patient surroundings.
These recommendations can mean a lot of washing during a normal day. This is not only time-consuming but conventional soaps can strip natural oils which protect the skin, leading to an increased risk of damage through conditions such as dermatitis. Under these circumstances it is sensible to use an alcohol-based hand sanitiser that kills pathogens faster than soap without removing protective oils.
Whatever products are chosen, they must be available and ready to use whenever required. Dispensers should be situated conveniently to encourage regular and proper use. At the same time, they should ideally contain enough product to prolong the interval between refills and therefore minimise the risk of outages and reduce necessary restocking burdens.
Another way to encourage compliance is to monitor usage. While it is rarely desirable to monitor individuals, it is helpful to know how often a particular dispenser has been used and how much product has been consumed. Knowing how many times a dispenser has been used and comparing this with the number of patient contacts by the clinical and nursing team should give a reasonable indication of whether they are complying with agreed standards. If not, additional awareness and training can be provided and the subsequent change in usage patterns assessed.
Surface disinfection is another critical aspect of infection prevention. It is vital to choose the right disinfectants to improve environmental hygiene in healthcare settings. However, not all disinfectants are created equally.
Healthcare cleaning professionals have traditionally chosen disinfectants with chlorine as the active ingredient (usually as bleaches) for cleaning hard surfaces.
While widely used, the drawbacks of these formulations are well noted in terms of effectiveness as well as safety and there seems to be a gradual shift towards safer, quicker and more effective disinfectants. Alternative formulations with Accelerated Hydrogen Peroxide (AHP) as the active ingredient offer numerous advantages with few limitations.[ii]
The key requirement from any disinfectant in healthcare settings is efficacy – to prevent the introduction of potentially harmful pathogens and infections. These can range from hospital associated infections such as MRSA and C. diff to infections common in any setting, such as influenza and Norovirus. Effective surface disinfection is especially important in healthcare because patients are likely to be frail and vulnerable.
It is important to select disinfectants capable of killing pathogens of concern. Problem pathogens, such as norovirus and C. diff., might not be killed by conventional disinfectants. Contact times must be realistically short so that any pathogens are killed before the surface dries. Disinfectants with long contact times may require reapplication to ensure pathogens are killed. This can be impractical, time-consuming and inefficient.
Disinfectants containing AHP are highly effective against a wide range of viruses, spores, yeasts, and fungi found in healthcare, including C. diff, MRSA, Norovirus, E. coli, and Pseudomonas aeruginosa. This broad-spectrum efficacy has been tested to the latest EN standards and submitted into the Biocidal Products Regulations (BPR) – a standard which all actives and disinfectants need to pass. AHP simplifies processes because just one product is needed – using numerous alternative products to provide the same level of performance adds unwanted complexity.
Disinfectants with AHP can be supplied in ready-to-use and ultra-concentrate formats. Depending on the specific formulation, these are effective against viruses, spores (including C. diff), yeasts and fungi in one minute or less, meeting demand for highly effective products with shorter contact or dwell times.
Traditional products containing chlorine are generally not as effective on spores and require significantly longer contact times. Products containing AHP have been tested and shown to kill viruses such as Norovirus in up to 30 seconds and the most persistent spores such as C. diff in one minute. Chlorine-based products can take up to 30 minutes. Aside from any productivity issues, they are only effective while wet which means efficacy will be lost if they dry within the specified contact time. Under normal conditions the much shorter contact times of AHP products are usually passed before they have dried.
Products containing AHP offer additional benefits that simplify day-to-day cleaning operations. With more cleaning taking place while patients are present, processes must be completed safely and efficiently, so as not to create an unpleasant environment or put patients at risk.
AHP degrades to oxygen and water alone shortly after use which helps make formulations containing it safer to use. Chlorine-based products are suspected of aggravating asthma and other respiratory problems, and forming chlorine compounds in the atmosphere. Another consideration is that some products containing AHP have no safety classification whereas chlorine-based products usually carry a hazard symbol.
Breaking down to water and oxygen alone means products with AHP leave little or no residue on surfaces, helping to promote the appearance of the area being cleaned. They can be used safely on a wider range of surfaces, including wool and other fabrics, with reduced risk of damage. Chlorine based products on the other hand will corrode or degrade many surfaces with regular or prolonged use. Nor can they be used as part of a microfibre system because they damage the material, severely restricting their disinfection potency.
The easier a product is to use, the greater the chance of cleaning compliance. Products should be accompanied by training aids to support members of diverse cleaning teams. Despite proper training, there are still cleaning and disinfection challenges that may arise. It is therefore important to measure performance to determine if additional training is necessary.
The variety of disinfectants has grown in recent years, as manufacturers have developed solutions for specific daily and problem-solving tasks. It is therefore important to match the product to the specific application. This optimises cleaning performance and reduces inefficiencies, poor results, and the need for repeat cleaning. Reputable manufacturers will provide advice on the most suitable products from their ranges to use in every situation. They should also be able to supply the documentation and evidence with independent test data to support product claims.
While disinfectants offer healthcare cleaning professionals effective solutions in many situations there are times when additional measures are necessary or desirable. The latest technology to emerge uses powerful UV-C light to disinfect surfaces quickly and effectively[iii]. This represents a new hands-, chemical- and fume-free way to implement safer disinfection. It is particularly useful for so-called adjunct cleaning which is employed to complement or supplement existing processes and provide additional assurance that frequent-touch and hard-to-clean surfaces have been disinfected. Dr Deverick Anderson published a paper in 2017 that found using UV-C alongside traditional disinfectants reduced HAIs by 33%.[iv]
The infection-killing properties of UV-C have been known for some years and there are at least 40 scientific studies measuring either its biocidal effect on micro-organisms or the impact on HAI rates. UV-C kills pathogens by destroying the nucleic acids in their DNA. This disrupts the normal function of the cells which means they die. Any surface directly exposed to a sufficient amount of UV-C will be disinfected. One of the biggest advantages of UV-C disinfection is that large areas can be decontaminated very quickly without any additional intervention. Because UV-C disinfection is physical rather than chemical it means that there is much less chance of pathogens developing any form of resistance.
Despite these advantages, no cost-effective practical UV-C systems were available until recently for routine use in healthcare settings[v]. Now the devices used in hospitals produce powerful UV-C light at the optimum wavelengths to provide fast broad-spectrum disinfection. These devices tend to fall into two categories: for broad area and high-touch surface disinfection and disinfection of smaller, portable devices.
Systems designed for disinfection of broad areas and high-touch surfaces can be effective in as little as three minutes. This is more than twice as fast as fogging and almost twice as effective as traditional cleaning and disinfection alone in destroying the pathogens that cause healthcare associated infections. They are an excellent option for on-demand disinfection of high-touch surfaces throughout a hospital, including patient rooms, operating rooms and bathrooms. Such systems can also be used on patient care equipment, fixtures, keyboards, monitors, and workstations.
UV-C is at its most powerful when it hits a surface perpendicularly – at right angles – such as directly from overhead or square on to wall. Any deviation from this angle of incidence will diminish the power. In practice this means that at an angle of incidence of 45 degrees, the surface will only receive around 75% of the energy. At angles between 20 and 30 degrees the energy levels are reduced by around 60%.
Like all electromagnetic radiation, the power of UV-C also diminishes rapidly the further away a target surface is from the source because of the inverse square law. This means that the energy reduces fourfold (ie 2×2 or 2 squared) with each doubling of distance. Alternatively, the intensity at 2m from a light source is just 25% of the level at 1m. Using the same calculations shows that the amount of energy reaching a surface just over three metres (10 feet) from the source is one per cent or the original.
Systems delivering UV-C must therefore ensure the maximum amount hits the target surface to give the most powerful disinfection. One way to achieve this is to mount the UV-C sources on arms that can be positioned independently and pointed towards and set as close as possible to the target surfaces. This ensures more of the UV-C produced will hit the surface at right angles and at the minimum distance to give the best disinfection. When the light sources are mounted on a single, central column that is not easily repositioned, less of the UV-C produced falls on target surfaces perpendicularly and from further away. Either way this means the device will be less efficient.
UV-C systems for portable devices are designed to disinfect items such as tablets and smartphones. These are becoming more widely used in healthcare settings but they are often used by different members of the nursing or clinical team throughout the day. This means that they are not only frequent- or high-touch surfaces but they can also present increased opportunities for pathogens to pass from person to person. There is some evidence that people do not wash their hands after using these devices, or indeed clean the device itself.
As with any routine process, the use of these disinfection systems should be simple and quick to encourage their use. Items to be treated are placed in a secure box which contains the UV-C light sources, safely shrouded from the outside world. This means that they are always close to the items being disinfected for maximum effectiveness. Because items being treated are always close to the UV-C source these units provide extremely effective disinfection. Items can usually be disinfected in around 30 seconds.
Independent tests have shown that there can be an up to 5-log reduction in surface pathogens including MRSA, VRE, MDR-Gram negative, Norovirus and C.diff spores. This means that the number of micro-organisms is reduced by 105 times or by a factor of 100,000.
The power of UV-C to damage DNA and cells means that people would be affected too if they were exposed. Devices are supplied with fail-safe features such as remote control that prevent close-up activation and motion sensors that shut the unit down if anyone should approach too closely.
Hospitals and other healthcare facilities have a wider range of infection prevention tools at their disposal than ever before. The choice available means that there is greater flexibility to specify the right combination to meet infection prevention compliance and reduction targets in the quickest, simplest and most effective way that integrates with the facility’s other processes. The choices can be complex but leading cleaning and hygiene suppliers with experience in healthcare will be able to work with clinical, nursing and housekeeping teams to devise and implement robust infection prevention policies.
[ii] Teska, Peter & Rushworth, A & Theelen, M & Jongsma, J. (2013). O018: Evaluation of the efficacy of a novel hydrogen peroxide cleaner disinfectant concentrate. Antimicrobial Resistance and Infection Control. 2. 10.1186/2047-2994-2-S1-O18.
We live in an interconnected world where anyone and anything can exchange information in real time and increasingly vast amounts. One of the clearest examples of this is the Internet of Things – the myriad of gadgets that communicate with each other over “the cloud”. According to global research analyst Gartner, around 20 billion such devices – excluding tablets and smartphones – will be in use by 2020 – almost three devices for every human alive. Some estimates suggest even more. Gartner also predicts that around two thirds of enterprises – doubling the total in just three years – will have adopted IoT products by 2020. By then the global value of the IoT will be over $7 trillion according to some reports.
While some of this technology is employed in what many consider to be trivial tasks there are many useful applications. Amazon, for example, offers small wireless gadgets that attach to home appliances such as washing machines and dishwashers. Just a single tap on the device’s button issues a request via a smartphone or home network to the company’s systems and automatically generates an order for replacement detergents which are then delivered the next day. The user has no more interaction than that, yet the system works seamlessly to ensure they never run out of product. Some domestic appliance manufacturers have gone further and embedded internet connectivity into their machines. This allows users to check, control and manage their washing machines and dishwashers remotely using apps on their smartphone or from their PC or tablet.
Similar concepts are now emerging in the professional cleaning sector and Diversey calls this the Internet of Clean. This provides a framework that remotely monitors equipment, machines, and operations through sensor-generated data. Analysing this data enables insight into cleaning operations, dosing, compliance and machine performance.
Businesses are investing heavily in the IoT to integrate new and existing equipment and technologies with software applications. The amount of information that can be generated can be bewildering but used wisely it offers new levels of oversight and control. The aim is to produce business-class solutions that are robust and secure while delivering the insight and performance gains that justify the investment. There are already many examples across food service and related sectors:
Remote Dishwash & Laundry Monitoring: operators can monitor dishwashing and laundry machines to see information such as the number of cycles completed, temperatures, volumes cleaned, product levels and the amount of water and energy used. They have greater control to improve results and reduce costs while maintaining food hygiene and safety compliance. Such systems have shown, for example, that around four out of five dishwashing processes use too much fill and rinse water and that most machines are 10-15 per cent off spec in rinse temperature. Insight like this allows operators to remodel their processes to reduce the associated wastage.
Information is automatically and instantaneously analysed so that status reports and alarms are shown immediately on an interactive user dashboard. This provides a clear and intuitive view of every connected dishwashing machine, even at multiple locations. Such systems can send alerts to authorised recipients to enable rapid response. This might include, for example, when energy, water or detergent usage exceeds predetermined limits. Operators can then proactively predict and prevent unexpected downtime to maximise machine uptime, performance and efficiency. Information required to resolve issues can be provided in the form of video attachments and contextual content that also acts as training material.
Hand Hygiene Compliance Monitoring: the latest hand wash dispensers monitor the number of uses and the amount of product consumed. When connected to the Internet of Clean they allow managers to monitor and manage multiple units across several sites simultaneously, reducing workloads while enhancing efficiency. Operators have a clearer understanding of utilisation and hand hygiene compliance. This is particularly important in food service and healthcare settings where the link between good hand hygiene, food safety and patient safety is critical. Smart dispensers can reveal under- or over-usage that helps operators understand users’ behaviour and intervene with appropriate remedies armed with accurate information. These dispensers also issue alerts when product or battery levels get too low so that supervisors can respond proactively to maintain availability.
Cleaning & Food Safety Audits: devices including smartphones are used by teams to complete audits, follow instructions, confirm actions and provide feedback using text, images and video. Managers can see the status of any operation, where tasks have yet to be completed, and overall performance levels. They can assess success and compliance with service level agreements, provide evidence to customers and streamline their operations to improve productivity and profitability.
Food Waste Monitoring: kitchen staff place food waste in a bin mounted on scales and confirm information on a connected touchscreen. The system provides instant feedback on the amount and type of waste being generated. Through Internet of Clean connections, managers can monitor individual sites and aggregate information from multiple locations to analyse daily and weekly trends. With up to 20 per cent of food purchased in kitchens ending up in waste bins the insight provided by these systems can help food service operators understand and reduce their waste by up to half and cut costs by up to eight per cent.
Optimising Resources: the information available through Internet of Clean technologies can help managers to benchmark and understand staff behaviour so that they can deploy teams more effectively and productively. With labour costs representing by far the biggest element of any cleaning operation this can yield significant benefits. Teams can do more in the same time and focus on tasks that make the biggest difference to customers.
Augmented Reality: feature-rich interactive content is delivered direct to the user to complement conventional operating, maintenance and training guides. This not only promotes greater efficiency but reduces the need for time-consuming interventions to deal with routine issues.
These and other innovations are accessed over the Internet of Clean using smartphones, tablets and desktops. Users have a digital portal and intuitive dashboards where they can review data and trends. This quantifiable information offers valuable, real-time insight into their operations, delivered in easy-to-interpret KPIs. Operators can improve their qualitative standards while lowering the cost of cleaning and hygiene programmes. In the majority of cases the services can be configured to send a text or email alert when predetermined conditions arise. This means that supervisors and managers can take action before an issue impacts on the customer or end user.
As with any innovation the real benefits of the Internet of Things can only be realised when the investment delivers a justifiable and quantifiable return in a meaningful timeframe. The return can be relatively easy to justify and accrues quickly when remote diagnostic and management prevents unexpected equipment outages or reduces the need for expensive on-site intervention. However, innovation and improvements to customer service and the resulting increase in loyalty or reputation may be somewhat harder to quantify in hard cash terms despite adding value.
The cleaning industry is starting its own journey with the Internet of Clean. The future is as hard to predict as ever but there is little doubt that these – and as yet unforeseen innovations – will enable operators to improve service, productivity, compliance, operational performance, and sustainability.
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Cleaning teams continue to face incredible pressure to deliver excellent results while introducing innovations, adding value, improving productivity and promoting sustainability without adding to costs. That can be a difficult set of criteria to achieve but we offer support with our unique ability to provide a complete set of products, tools, machines and services for every aspect of a customer’s cleaning operation from a single source.
As a market leader, we work with customers to devise, configure and implement fully-integrated solutions that are fine-tuned to business and operational requirements and deliver enhanced performance and value. The concept of a total solution from a single vendor is not new but it does require that suppliers adapt to business and regulatory pressures and take advantage of new technologies.
Sourcing from a single supplier offers a number of benefits for customers. Contract configuration and procurement processes are simpler because there fewer suppliers with whom to meet and negotiate. While this is self-evident many customers under-estimate the time and resources that can be involved with setting up major contracts.
Similar benefits arise during contract implementation because areas such as supply chains, training and compliance are less complex when dealing with fewer suppliers. While this can promote higher standards and greater consistency with reduced risk of incorrect deliveries it also means shorter and quicker communications channels should any issues arise. This is also the reason why support is usually simplified: there is less risk of being passed from one supplier to another when the underlying issue is unclear. Instead, the integrated supplier offers a single point of contact.
For their part, by offering an integrated solution selected from a wide set of products, suppliers can ensure everything is designed and configured to work together seamlessly and offer the maximum benefit in terms of performance, innovation, cost-control or any other criteria the customer specifies. We commit considerable investment and resources to developing and supporting our products. With approximately 8,600 employees across 175 countries and 180 dedicated researchers in 20 advanced facilities, we offer unrivalled documentation, technical support, applications expertise and insight that helps our customers achieve the best possible outcomes.
Integration is about more than simply making existing products work with one another. Innovation is a key requirement in many cleaning operations because it can support other objectives such as improving results or reducing costs. Our approach is to introduce innovations and unique technologies across our portfolio to ensure customers can benefit from new ways of working while still dealing with a single market-leading supplier. In this way we and our customers can create highly focused solutions by choosing the very best products for the specific application and contract. The alternative, of customers selecting different products from multiple suppliers, can lead to the complexity and resultant drawbacks previously mentioned.
Recent innovations from Diversey include: the latest-generation TASKI swingobot 2000 robotic floor cleaning machine; Twister by Diversey diamond-impregnated floorcare pads for use with TASKI floorcare machines and water alone; the IntelliCare hand care system with unique wall-mounted dispenser, the industry’s first automatic hybrid design with touchless and manual activation; Moonbeam3 disinfection technology for healthcare settings; the TASKI aero tub and backpack vacuum cleaners, among the quietest and most energy-efficient commercial machines on the market.
We have also added new Internet of Clean services such as IntelliLinen for laundries and IntelliDish for mechanical warewashing to build on our already extensive capabilities in this growing area. Cloud-connected services like these are increasingly being used to introduce new levels of insight, management and control to deliver improved performance and reduced costs.
All of these, and other new products, add to our portfolio and our ability to offer choices to customers that enhance the performance and outcome of cleaning operations while also strengthening their ability to win bids and secure new business. We will be highlighting many of these innovations and our total solutions capabilities at The Cleaning Show at London Excel, March 21-23.
Oxivir products from Diversey deliver fast-acting, broad-spectrum disinfection against a wide range of pathogens including bacteria, viruses and yeasts. Tested to relevant EN standards, each product contains patented Accelerated Hydrogen Peroxide (AHP) as its active ingredient. This blend of commonly used, safe ingredients and low levels of hydrogen peroxide dramatically increases potency and cleaning performance.
Oxivir Excel cleaner-disinfectant is designed to replace general surface cleaning products for daily tasks to provide affordable ongoing infection protection. It is fully bactericidal against multi-drug resistant organisms (MDROs) including MRSA, VRE and CRE. It is also fully viricidal against non-enveloped and enveloped viruses such as Norovirus, Influenza and HIV in 30 seconds. It is yeasticidal against Candida albicans. Non-classified, it is safe to use around patients and will not damage surfaces.
Oxivir Sporicide is a ready-to-use one step hospital-grade, cleaner-disinfectant with excellent response against hard-to-kill pathogens such as C. diff, Bacillus subtilis and other MDROs in 60 seconds. Despite this efficacy its “irritant” classification is much lower than traditional alternatives.
Diversey also offers disposable ready-to-use Oxivir Excel wipes and the Oxivir Spill Kit for acting quickly to contain and remove body spillages.
AHP breaks down to water and oxygen shortly after use without leaving residues or stains or producing any potential respiratory irritants. Products containing AHP usually require no hazard classification.
Moonbeam3 delivers powerful UV-C light to provide fast broad area disinfection of high-touch surfaces in hospitals and care homes in as little as three minutes. This is much faster than fogging and almost twice as effective as traditional cleaning and disinfection alone in destroying the pathogens that cause healthcare associated infections (HAIs). It’s one of our Top Ten products that we’ll be featuring at the forthcoming Knowlex (27/2 London) infection prevention and Cleaning Show (21-23/3 London) events.
UV-C penetrates and destroys the DNA in the cells of pathogens such as viruses, bacteria and spores which stops them multiplying and causing infections. This means Moonbeam3 offers facilities a completely hands, chemical and fume-free way to complement existing processes with safer high-performance disinfection. The device is ideal for surfaces accidentally missed during regular cleaning and for frequently-touched, hard-to-clean surfaces and intricate equipment. It can be used in patient rooms, operating theatres and bathrooms and on patient care equipment, keyboards, monitors, and workstations.
Moonbeam is quick and easy to use with push-button activation and short operating cycles. Its three articulating, light-producing arms can be positioned independently to target light efficiently and closely onto surfaces to be disinfected. This unique design allows it to be used in more places while its high-efficiency dosing increases speed which reduces labour and operating costs. Periodic maintenance is limited to bulb replacement, with no tools required.
The first generation of robotic cleaners were exciting because they offered new ways of working, powered by technologies that had never been seen in the professional building care sector. Their ability to operate on their own and liberate cleaning staff for more important and productive duties were compelling reasons for many cleaning teams to adopt them. But the second-generation machines – typified by Diversey’s TASKI SWINGOBOT 2000 scrubber drier – go further by adding enhanced cleaning performance to the undoubted benefits of robotic autonomy. This revolutionary robotic floorcare machines in one of our Top Ten Products which we’ll be highlighting in the run-up to The Cleaning Show in March.
With the TASKI SWINGOBOT 2000, the company’s engineers have introduced many of the tried-and-tested performance-boosting and sustainability-enhancing features that are established on its award-winning conventional scrubber drier range. At the same time the technologies at the heart of its robotic capabilities have been upgraded and improved. The result is a machine that is at least 25 percent more productive than the first-generation model it replaces, enabling facilities to effectively and consistently clean floors in less time.
The machine operates autonomously via sonar, 2D LIDAR, touch shield sensors and floor-detector sensors that work in harmony with the robot’s computer software. It avoids obstacles in its path and will intelligently stop as soon as any change in its environment is detected.
Numerous intelligent TASKI functions are included as standard on the TASKI SWINGOBOT 2000. These include Intelli-Trak which measures the on-site performance of the machine and enables remote software updates. Cleaning performance enhancements include TASKI IntelliDose. This closed-pouch dilution control system enables the use of highly-sustainable ultra-concentrate formulations for all common floorcare tasks. Solutions are always prepared automatically onboard the machine to the correct specification for optimum performance with no wastage. At the same time the machine’s TASKI IntelliFlow technology ensures the correct amount of solution is applied to the floor according to the speed of travel, reducing wastage and helping ensure the floor is dry after cleaning and ready for immediate use. Finally, the machines can be equipped with the most suitable cleaning pad for the type of floor and application selected from the extensive TASKI range. This includes Twister by Diversey, an innovative set of thirteen floor care pads made from 100 per cent recycled PET that deliver exceptional results with water lone, helping to enhance the sustainability of the cleaning operation.
Although robotic cleaners can be used in many settings, they deliver maximum efficiency when able to roam freely in large and open areas with few obstructions for the majority of the time. This makes them ideal for applications such as hospital corridors, airports, sports halls, conference centres and other areas where regular cleaning is needed to maintain high standards of hygiene or the appearance of the facility.
This is where the TASKI SWINGOBOT 2000 scrubber drier offers significant advantages over conventional cleaning techniques. Once programmed using simple instructions it can work on its own, with minimal direct supervision, to cover large areas quickly and efficiently following a predetermined path. Its in-built routines ensure that it covers the entire area in the minimum amount of time without any undue overlapping or missing any parts of the floor.
The same systems continuously monitor the status and performance of the machine and, with their connectivity to the Internet of Clean, can automatically alert managers to a wide range pre-determined incidents. This can include reporting a collision, a low battery or some other diagnostic event. Managers can then intervene proactively and take remedial action before the machine’s performance impacts on the operation or leads to an outage.
The market for robotic floorcare machines continues to grow as more customers recognise the powerful benefits they can bring to their cleaning operations. No doubt, as yet unforeseen advances in robotic and cleaning technology will continue to drive this significant trend in the industry.