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  • Keep a cool head in summer with new Cooling Pads for helmets

    Keep a cool head in summer with new Cooling Pads for helmets

    Keep a cool head in summer with new Cooling Pads for helmets

    Outdoor workers around Europe will soon face the summer sun, often leading to heat fatigue and heat stress and consequent effects on workers’ health and productivity. Decreased concentration and failing fine motor skills are dangerous and lead to rising accident rates. With a simple but innovative cooling pad for the helmeted worker comfort is increased and risk is minimised.

    A cooling effect of up to 12°C below ambient temperature is possible with one activation lasting 5-10 hours. This is only possible with the water management system created in the innovative HyperKew™ material, as the fabric absorbs and releases water within its multi-layered structure. To activate just submerge the cooling pad in water for 1 minute. After a gentle squeeze it will feel almost dry with no drips, the cooling effect starts immediately.

    The cooling pad can be activated over a 100 times and its durable, lightweight and free from pollutant chemicals. With hook and loop fastener it conveniently attaches to any V-Gard helmet suspension. MSA offers two versions of the cooling pad – either for the crown or extended with neck protection.

    The perfect combination is with MSA’s best in market vented helmet V-Gard 200, with its many accessories and professional full colour printing. Don’t forget to keep workers eyes safe too. With MSA UV400 safety glasses that not only look good but protect against UV-radiation and glare as well as impact and dust.

    For further information visit www.MSAsafety.com.

  • Beat the heat with this cool gear

    Beat the heat with this cool gear

    The temperatures are in high 40s with higher levels of humidity, but you have to get out to work. Or you may be a cycling enthusiast, a football player, an athlete or a biker forced to either stop or reduce the amount of time you train and practice for. Well, worry not because there are innovative technologies available that can help you manage the heat and continue with your favourite activities even in these extremely hot conditions. And it is as simple as a wearable cooling gear. People at ‘Just Grow Material Supplies’ (JSM), a Qatari company, have brought innovative heat stress management cooling wear to Doha that is already helping many companies tackle the heat stress issues among their workers, besides assisting sportsmen in enhancing their performance in the hot summer days. The technology used in these garments is simple but mighty effective. There are two technologies under which these products operate — evaporative cooling and phase change management cooling. Like your body, evaporative cooling makes water evaporates from the fabric and it cools you down. It starts as a very basic product, such as a neck band to cover your neck. And then it goes to be as complex as a proper vest to cover your chest, back and the torso. “All of these have a special fabric called hyper-kewl. And this fabric is nothing but a combination of polymers bound together and this particular fabric absorbs water. When you work out there in the heat and the hot air goes through the fabric, the water in it starts evaporating and it cools you down,” Sumit Malhotra, General Manager JSM, tells Community in an interview. As the long summer season sets in Qatar, this type of cooling will be a more popular option. It comes in vests, head gear to wear under helmets or otherwise, wrist wraps, neck bands and more. The other method, Malhotra says, is a specialised cooling called phase-change. These are gels. You put them in refrigerator or ice-box. The good thing is you do not need to store them overnight or for number of hours. You put them in a refrigerator or an ice-box for about 45 minutes to an hour and the liquid changes to solid. The gel becomes ice. “You put these gels inside the cooling vest or any normal gear that you wear, even in the neckbands, and it maintains a constant temperature of 14C,” says Malhotra. This kind of technology is more useful for workers operating under extreme heat conditions. JSM gets these cooling products from TechNiche International, one of the largest manufacturers of cooling vests in the world, with distribution centres in the US, Europe, Asia and the Middle East. In Qatar where summers are extended and last well up to October, these cool innovative products are useful for almost everyone living and working here, says Malhotra. Whether you are a construction worker, an engineer working at any of the construction sites or you are working inside a factory, industry, plants, working offshore or you are a simple sports person, you can use this equipment. Whether you are a cyclist, go to gym, or love jogging, you can use these products. And if you are a biking fan, riding for example the big burley Harley-Davidson, there is a specialised line of cooling gear for you. It is particularly useful for the delivery people who ride bikes in the heat. It can even be used by children going to summer camps or sports camps. There are vests and a line of products for housewives working in the kitchen or the chefs. Malhotra says they have individual sports users in Qatar like cyclists and runners. Globally, however, this technology is used by FIFA teams in Europe, football clubs in Europe to Olympic cycling teams, Tour de France cyclists, and F1 racing teams such as Mclaren and Ferrari, besides many other sport clubs. “We have introduced and showcased this product to some of the big local football clubs here in Qatar including some of the big names. Some of them have shown interest to try these out for their players especially during practice sessions,” says JMS GM. They are in touch with local sports hospitals and centres that carry out research in terms of new technologies or devices that keep players cool. One of these institutions might be studying the cooling vests to suggest them for national teams here, says Malhotra. And it is not just football. You have an Olympic Committee here and there is a huge talent that is being grown for various sports. And then you have entities like Aspire Zone, which is preparing future players. Some of these cooling products can help them in terms of improving their performances or abilities, he adds. Qatar, he says, has been the largest user of cooling vests in one of the oil and gas projects during the construction phase, where more than 33,000 workers used the cooling gear from wrist and neck bands to vests to help them mitigate heat stress during summers. In that particular project, he says, they saw almost a 50% drop in the heat stress cases and no serious cases were reported. JMS has also extended the technology to the wider construction industry in Qatar in different sectors. “We now have users of many lines of products in various projects. And the feedback has been really encouraging,” says Malhotra. And the technology is very affordable, when seen against the value that it provides. The very basic neck band can be had for QR12. The cooling vest runs for QR300. But if you do simple math in terms of the number of days that the vest lasts, it would come to QR2 per day, says Malhotra. “When you are using these products, your body gets charged up, you take less frequent breaks, you can complete a job with a more enhanced focus. So if you consider all these factors, then the benefits far outweigh the financial costs,” says the JMS general manager. A completely Qatari-owned company, JMS was established in the late 1950s. It has a rich legacy of over 50 years but in its present form it was re-established in 2014. “Our focus is on innovative products looking at various best practices from around the world and bringing them to Qatar. We are the first company here to look at heat as a sector and provide solutions for it,” says the JMS GM.

    Your text to link here…

  • Keep your cool about heat stress

    Keep your cool about heat stress

    Heat stress is by no means only a problem of the future; it is a problem that health and safety professionals throughout the world already face today. Workplaces in the United States and Australia have been quickest to act, but we’re increasingly seeing companies in Europe taking steps to reduce the risk of heat stress among their staff.

    So what is heat stress and why is it a problem? Heat stress occurs when the body stops being able to control its internal temperature. Under normal circumstances our bodies do this quite effectively – increasing blood flow to the skin’s surface and producing sweat, which evaporates from the skin’s surface and helps heat to escape.

    However, if the body’s attempts to do this are hampered – as in environments where heat exposure is unavoidable or where protective equipment stops sweat from evaporating – then heat stress can be the result, putting the body under strain and resulting in heat-related illness. Symptoms of heat stress differ according to severity, but can include impaired concentration, fatigue, muscle cramps, heat rashes, severe thirst, dizziness, nausea, headaches, heavy sweating and clammy skin. The severest form of heat-related illness – heat stroke – can lead to confusion, convulsions, loss of consciousness and even death.

    Naturally, some workplaces, such as those where the process itself produces heat, are at greater risk than others. However, the risk of heat stress in outdoor work environments such as those in agriculture and construction is definitely worsening as the world gets hotter.

    In these types of workplaces, exposure to direct sun with no shade can substantially increase how hot the body gets. Higher air temperatures and humidity levels, as well as low air movement or strong winds with hot, dry air can also exacerbate heat problems. Sunlight reflecting off water, the ground and artificial surfaces can produce radiant heat, further compounding the problem. When combined with low fluid consumption, physical exertion or the use of bulky protective clothing and equipment, working in hot conditions outdoors can become extremely hazardous.

    The good news is that when temperatures rise, there are a number of steps that employers can take to protect employees from heat stress.

    These include:

    Education: Provide training for workers and their managers to make them aware of the heat stress risks associated with their work, symptoms to look out for and how to respond, as well as the importance of staying hydrated and taking rest periods in shaded or cooler areas Preventing dehydration: Provide cool water in the workplace and encourage workers to drink small amounts frequently before, during and after working Providing shade: In hot weather, shaded areas can have a much cooler ambient temperature than those in direct sun, allowing the body to get rid of heat more easily. Provide shaded rest areas and, if possible, consider moving work into shaded areas Providing protective clothing: Light coloured clothing reflects the heat and wide-brimmed hats provide sun protection, but specialised cooling clothing can actually help the body to keep cool, particularly when protective equipment has to be worn. For example, the Techniche HyperKewl™ crown cooler and neck shade attaches to the inside of a hard hat and uses evaporative technology to keep the wearer’s head and neck cool – between 6°C and 12°C cooler than the ambient temperature – for several hours while also protecting them from the sun Allowing workers to acclimatise: Gradually increasing workloads and exposure while taking frequent breaks for water and to rest in a shady or cool area can enable the body to build up some tolerance to working in the heat. Allow new workers and those returning from absence to acclimatise to reduce their heat stress risk. In addition, during a heat wave, even experienced workers may need to acclimatise to the higher temperature Scheduling work to reduce sun exposure: Schedule the hardest physical tasks for the coolest parts of the day, rotate workers to reduce their heat exposure and move work away from direct sun or radiant heat sources.

    [Your text to link here…](Heat stress is by no means only a problem of the future; it is a problem that health and safety professionals throughout the world already face today. Workplaces in the United States and Australia have been quickest to act, but we’re increasingly seeing companies in Europe taking steps to reduce the risk of heat stress among their staff.

    So what is heat stress and why is it a problem? Heat stress occurs when the body stops being able to control its internal temperature. Under normal circumstances our bodies do this quite effectively – increasing blood flow to the skin’s surface and producing sweat, which evaporates from the skin’s surface and helps heat to escape.

    However, if the body’s attempts to do this are hampered – as in environments where heat exposure is unavoidable or where protective equipment stops sweat from evaporating – then heat stress can be the result, putting the body under strain and resulting in heat-related illness. Symptoms of heat stress differ according to severity, but can include impaired concentration, fatigue, muscle cramps, heat rashes, severe thirst, dizziness, nausea, headaches, heavy sweating and clammy skin. The severest form of heat-related illness – heat stroke – can lead to confusion, convulsions, loss of consciousness and even death.

    Naturally, some workplaces, such as those where the process itself produces heat, are at greater risk than others. However, the risk of heat stress in outdoor work environments such as those in agriculture and construction is definitely worsening as the world gets hotter.

    In these types of workplaces, exposure to direct sun with no shade can substantially increase how hot the body gets. Higher air temperatures and humidity levels, as well as low air movement or strong winds with hot, dry air can also exacerbate heat problems. Sunlight reflecting off water, the ground and artificial surfaces can produce radiant heat, further compounding the problem. When combined with low fluid consumption, physical exertion or the use of bulky protective clothing and equipment, working in hot conditions outdoors can become extremely hazardous.

    The good news is that when temperatures rise, there are a number of steps that employers can take to protect employees from heat stress.

    These include:

    Education: Provide training for workers and their managers to make them aware of the heat stress risks associated with their work, symptoms to look out for and how to respond, as well as the importance of staying hydrated and taking rest periods in shaded or cooler areas Preventing dehydration: Provide cool water in the workplace and encourage workers to drink small amounts frequently before, during and after working Providing shade: In hot weather, shaded areas can have a much cooler ambient temperature than those in direct sun, allowing the body to get rid of heat more easily. Provide shaded rest areas and, if possible, consider moving work into shaded areas Providing protective clothing: Light coloured clothing reflects the heat and wide-brimmed hats provide sun protection, but specialised cooling clothing can actually help the body to keep cool, particularly when protective equipment has to be worn. For example, the Techniche HyperKewl™ crown cooler and neck shade attaches to the inside of a hard hat and uses evaporative technology to keep the wearer’s head and neck cool – between 6°C and 12°C cooler than the ambient temperature – for several hours while also protecting them from the sun Allowing workers to acclimatise: Gradually increasing workloads and exposure while taking frequent breaks for water and to rest in a shady or cool area can enable the body to build up some tolerance to working in the heat. Allow new workers and those returning from absence to acclimatise to reduce their heat stress risk. In addition, during a heat wave, even experienced workers may need to acclimatise to the higher temperature http://www.hsmsearch.com/page_723192.asp “HSM Magazine “)

  • "don an AeroChill, a miracle vest that you dunk in water"

    Q. It’s getting hot in here. Shall I take off all my clothes?

    • Alan Hanley, Wiltshire

    A. That won’t be necessary, Alan, as comfortable as GaGu is with the human form.

    Instead, don an AeroChill, a miracle vest that you dunk in water. Yes, that sounds very much like GaGu is advising you to put on a wet T-shirt, but the AeroChill doesn’t feel wet (even though it is), and the cooling effect is much greater than what you’d get with a normal wet T-shirt. Plus, it won’t emphasise your moobs as much.

    http://www.t3.com/features/gadget-guru-2

  • If you can’t stand the heat…Cooling Vest

    If you can’t stand the heat…Cooling Vest

    www.techniche-europe.com

    James Russell, Managing Director of climate control apparel specialist TechNiche Europe, explains why heat stress poses a growing problem for industries around the world and discusses the steps you can take to keep your employees safe.

    The world is getting hotter. Over the last century the global average surface temperature has increased by around 0.74°C and the rate of increase is rising too[1]. Heatwaves around the world are predicted to become more frequent and intense, increasing occupational heat exposure and presenting a growing challenge to health and safety professionals around the world[2][3] as they try to manage heat stress

    Understanding heat stress

    Heat stress occurs when the body’s ability to control its internal temperature fails. It isn’t usually a problem because under normal circumstances the human body is quite effective at regulating its internal temperature – balancing heat transferred into and generated within the body itself with heat coming out of the body. When exposed to heat, the body immediately reacts to cool itself down by increasing blood flow to the skin’s surface and producing sweat. As sweat evaporates from the skin and heat carried to the body’s surface is able to escape, the body cools down.

    However, if the body’s efforts to create balance are hampered in some way, this can lead to heat stress. For example, in a workplace with an ambient temperature over 35°C, the small difference between skin temperature and that of the surroundings means that sweating becomes the only real way to reduce body temperature[4]. In addition, at ambient temperatures above 37°C the skin itself can actually become a source of heat gain[5]. Under these conditions, and particularly if the person is performing physical activity that is creating more heat internally, the body may not be able to reduce its temperature. If this happens in a work environment where exposure to heat is unavoidable or protective equipment stops sweat from evaporating, the body’s core temperature will begin to rise.

    The body reacts to elevated core temperature by sweating more, potentially leading to dehydration. A higher core body temperature can also result in an increase in heart rate, putting yet more strain

    [1] Nilsson M and Kjellstrom T. November 2010. Climate change impacts on working people: how to develop prevention policies. Global Health Action. 2010; 3: 10.3402/gha.v3i0.5774. Published online 2010 November 29. doi: 10.3402/gha.v3i0.5774.

    [2] Nilsson M and Kjellstrom T. November 2010. Climate change impacts on working people: how to develop prevention policies. Global Health Action. 2010; 3: 10.3402/gha.v3i0.5774. Published online 2010 November 29. doi: 10.3402/gha.v3i0.5774.

    [3] Xiang J, Bi P, Pisaniello D and Hansen A. March 2014. Health Impacts of Workplace Heat Exposure: An Epidemiological Review. Industrial Health. 52(2): 91-101. Published online 2013 December 21. doi: 10.2486/indhealth.2012-0145

    [4] Miller BS and Bates GP. 2007. The Thermal Work Limit Is a Simple Reliable Heat Index for the Protection of Workers in Thermally Stressful Environments. The Annals of Occupational Hygiene. Vol. 51, No. 6, pp. 553–561.

    [5] Hyatt OM, Lemke B and Kjellstrom T. December 2010. Regional maps of occupational heat exposure: past, present and potential future. Global Health Action. 2010; 3: 10.3402/gha.v3i0.5715. Published online 2010 December 13. doi: 10.3402/gha.v3i0.5715

    on the body. If the situation continues and the body continues to gain more heat than it can lose through its usual coping mechanisms, body temperature will continue rising and the body’s ability to control its internal temperature may fail.

    The ideal ambient working temperature is actually between 20°C and 22°C, with working capacity falling as temperature rises above that[1]. Above 26°C, concentration becomes difficult and fatigue sets in[2]. Other symptoms of heat stress include muscle cramps and heat rashes, as well as severe thirst[3]. Heat exhaustion, a more serious condition, may follow, with symptoms such as fatigue, dizziness, nausea, headaches, heavy sweating and clammy skin[4][5]. The most severe heat disorder is heat stroke. Characterised by hot dry skin, confusion, convulsions and eventually loss of consciousness, heat stroke can result in death if not detected early[6].

    Recognising the risk

    Heat stress affects people in different ways and vulnerability can be exacerbated by a number of factors. For example, people who are overweight, pregnant or over the age of 65 are at increased risk, as are those who have heart disease, are on certain medications, abuse alcohol, aren’t physically fit or are simply not acclimatised[7][8].

    Risk levels vary from industry to industry too. Typically manual workers exposed to extreme heat or working in hot environments in low or middle-income countries in tropical regions are most at risk[9], but workers in certain industries can be at risk wherever in the world they are. In fact, in the U.S.A., two out of every 1,000 workers are at risk for heat stress[10], while in the 28 member countries of the EU, temperature is a risk factor in 36% of workplaces[11].

    Industries most at risk include those where the work process causes heat, such as bakeries, kitchens, laundries, brick-firing facilities, ceramics plants, foundries and smelting operations[12], as well as situations such as mines where work done in a confined space results in a hot environment. Outdoor work environments, such as those in construction and agriculture, where heat exposure varies according to the weather and the work being done are also at greater risk[13].

    [1] European Agency for Safety and Health at Work. January 2008. Hot environments in HORECA. http://bit.ly/1jSzJ4U.

    [2] European Agency for Safety and Health at Work. January 2008. Hot environments in HORECA. http://bit.ly/1jSzJ4U.

    [3] Health and Safety Executive. June 2013. Heath stress in the workplace: A brief guide. http://bit.ly/1G1RLf1.

    [4] Health and Safety Executive. June 2013. Heath stress in the workplace: A brief guide. http://bit.ly/1G1RLf1.

    [5] Walter L. May 2012. The Heat Is On: Protecting Workers from Heat Stress. EHS Today. Cleveland, USA. http://bit.ly/1Zk10h3.

    [6] Health and Safety Executive. June 2013. Heath stress in the workplace: A brief guide. http://bit.ly/1G1RLf1.

    [7] Walter L. May 2012. The Heat Is On: Protecting Workers from Heat Stress. EHS Today. Cleveland, USA. http://bit.ly/1Zk10h3.

    [8] Government of Western Australia. Working safely in hot conditions – heat stress. http://bit.ly/1Zk19kG.

    [9] Xiang J, Bi P, Pisaniello D and Hansen A. March 2014. Health Impacts of Workplace Heat Exposure: An Epidemiological Review. Industrial Health. 52(2): 91-101. Published online 2013 December 21. doi: 10.2486/indhealth.2012-0145

    [10] National Institute for Occupational Safety and Health. May 2013. Workplace Solutions: Preventing Heat-related Illness or Death of Outdoor Workers. DHHS (NIOSH) Publication No. 2013−143.

    [11] European Agency for Safety and Health at Work. 18 March 2015. Second European Survey of Enterprises on New and Emerging Risks (ESENER-2). Bilbao, Spain: Prevention and Research Unit.

    [12] Health and Safety Executive. June 2013. Heath stress in the workplace: A brief guide. http://bit.ly/1G1RLf1.

    [13] Xiang J, Bi P, Pisaniello D and Hansen A. March 2014. Health Impacts of Workplace Heat Exposure: An Epidemiological Review. Industrial Health. 52(2): 91-101. Published online 2013 December 21. doi: 10.2486/indhealth.2012-0145

    The risk of heat stress should be a serious consideration for all employers, most importantly from the point of view of worker welfare, but also in terms of the impact that it may have on safety compliance and workforce productivity.

    Chronic workplace heat exposure can have adverse long-term health effects such as cardiovascular illnesses, mental health problems and chronic kidney illnesses, but it can also increase the risk of workplace injuries and accidents through fatigue, impaired judgement, decreased coordination and poor concentration[1]. For example, people working in the heat may struggle to grip equipment or tools with sweaty hands, while people who become dizzy might fall[2]. Additionally, where protective clothing or equipment is worn, employees may fail to wear it correctly in hot conditions, further increasing the risk of injury.

    Prevention and management

    Heat stress is already a well-recognised health hazard in some regions and industries, although some are more advanced than others in as far as heat stress management programmes are concerned. Government bodies in the U.S.A., Canada, Australia and the U.K. all provide information about working safely in the heat, the factors that can lead to heat stress and how employers can reduce the risk of heat stress, as does the European Agency for Health and Safety at Work.

    So how hot is too hot? In adults, the human body maintains its temperature around 37°C and deviation – up or down – of a degree or more can have serious consequences. Once core temperature exceeds 38°C the risk of heat stress occurring increases, at 39°C heat exhaustion can set in and above 40°C heat stroke may occur[3][4]. To ensure worker safety, it is important to maintain a safe core body temperature (<38.2°C) and sweat rate (<1.2kg per hour) during work in any set of environmental conditions[5].

    In order to assess the potential heat strain of employees, establish the maximum safe work rate for the given conditions and develop an appropriate prevention strategy, there are a number of risk assessments that employers can undertake with the help of an occupational hygienist. Doing so will make it easier to implement a heat stress prevention programme.

    Some of the steps that employers can take to protect employees from heat stress include:

    Installing additional ventilation or air conditioning to reduce heat exposure if possible Providing workers with cooling or protective clothing to mitigate the effects of heat exposure Allowing workers to gradually acclimatise to conditions if the conditions have changed or workers are new to them Provide cool drinking water that is easy to drink and encourage them to drink small amounts of water frequently before and during their shifts to stay hydrated Provide cool and/or shaded areas for breaks and build time for these into shifts Schedule heavier or more physically demanding work for the cooler hours of the day Be aware of any health conditions or medications that could have an effect on workers’ heat tolerance Ensure that first aid workers are trained to recognise and treat heat stress disorders Put a plan in place to address the problem immediately if a worker begins to show symptoms However, what is most important in any programme aimed at helping workers keep cool, hydrated and safe is maintaining communication with them and ensuring that they are trained and knowledgeable of heat stress symptoms[1]. While setting guidelines on safe maximum sustainable work rates for the conditions is vital, it is also important to empower employees to have a say in their own safety by encouraging them to speak up when they feel conditions are too hot.

    Heat stress may be a growing challenge for many industries, but with the right approach you can help your workforce stay cool, safe and productive.

    [1] Walter L. May 2012. The Heat Is On: Protecting Workers from Heat Stress. EHS Today. Cleveland, USA. http://bit.ly/1Zk10h3.

    [1] Xiang J, Bi P, Pisaniello D and Hansen A. March 2014. Health Impacts of Workplace Heat Exposure: An Epidemiological Review. Industrial Health. 52(2): 91-101. Published online 2013 December 21. doi: 10.2486/indhealth.2012-0145

    [2] Walter L. May 2012. The Heat Is On: Protecting Workers from Heat Stress. EHS Today. Cleveland, USA. http://bit.ly/1Zk10h3.

    [3] Bethea D and Parsons K. 2002. The development of a practical heat stress assessment methodology for use in UK industry. Sudbury, UK: HSE Books.

    [4] Government of Western Australia. Working safely in hot conditions – heat stress. http://bit.ly/1Zk19kG.

    [5] Brake DJ and Bates GP. 2002. Limiting Metabolic Rate (Thermal Work Limit) as an Index of Thermal Stress. Applied Occupational and Environmental Hygiene. 17(3) pp. 176-186

  • IonGear reviewed by the Daily Mail

    IonGear reviewed by the Daily Mail

    Our IonGear™ battery-powered heated jacket and gloves recently received a warm review in the Daily Mail Online.

    Now that colder weather is approaching there’s no better time to take advantage of our advanced battery-powered warming technology.

    Find out more about our IonGear™ warming products here.

    We will soon have IonGear™ products in stock on TUK-SHOP, our online retail site.

  • Introducing AeroChill

    Introducing AeroChill

    Aerochill is our brand new cooling vest for fitness.

    The vest still uses our incredible HyperKewl™ evaporative cooling fabric technology to keep you cool during exercise. We’ve worked closely with some of Europe’s leading sportswear designers to come up with a design that not only keeps you cool, but it looks great too.

    The AeroChill cooling vest is more comfortable, lighter and it looks great too. There are men and women’s designs for the AeroChill fitness vest, each with four neon trim so you can pick a colour that suits you.

    You can buy Aerochill fitness cooling vests from our online retail store or find out more on our Aerochill product page.