Tag: <span>cooling products</span>

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You finally made a leap and invested in a reliable truck, for a smooth running business. You can run it hard but take care of it at the same time. Remember it’s more than just a truck, it’s your business and your workhorse so take care of it. If the truck is not so new anymore you must especially take care of it, not only as the owner but as the driver as well. It is part of your work force, does your business and is the face of your company.

Taking good care of your truck ensures that you don’t have to spend money on a new truck every year or two. Here are a few ways to take care of your truck without spending a lot of money.

• Check and change all oils regularly. Nothing else will help an engine last longer than proper oil and filter changes when it is necessary. While not requiring a frequent service, these fluids must be changed according to your truck’s service plans. Always use transmission fluid or gear oil of the recommended type and thickness. Change brake fluid when necessary and bleed the truck once a year. Neglecting your engine will destroy it faster than you think.
• Check that your cooling system gets flushed and changed once a year. A mix of half coolant and half water will help keep the cooling system of your truck in good shape and will also help to prevent corrosion from the inside of the truck.
• Every moving part of the truck needs lubrication, so make sure that all parts are regularly greased for longevity. Poor lubrication can cause parts to break prematurely and will then need to be replaced.
• Regular inspections in and around the truck are required every week, just to make sure that everything is still in working order and nothing hangs lose or is broken.
• Keep it clean. Cleaning your truck on the inside and outside is good, but it must also be cleaned underneath too, as debris and dirt gets pulled in underneath. Hosing it off is a good idea as it gets rid of all unwanted grime and dirt. Apply wax once a year to keep the truck protected and in good condition.

These are few ways to take care of your truck. Investing in quality truck parts another way to ensure that your truck remains in good condition for a longer period.

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Source by Zaid Majam

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If you live in the 21st century and enjoy all the advantages that it offers, I am sure every day you will encounter products that require the work of refrigeration devices in order to service a need. They are everywhere, in every sphere, in every building serving us faithfully. Just look around, nowadays chillers are used almost in all industries, plants, mills, factories and public building. Some of them make our life more comfortable but the presence of the others is a must. The average person knows only superficial things about how and where these machines for cooling are used and this is just the tip of the iceberg.

In spite of the fact that chillers are invented to service a similar need and have basically the same principle of operation they can vary considerably in size and design. Thus, when choosing one of these refrigeration devices it is paramount to get to know how its process and what functionality it will favor with regard to your objectives and goals. In order not to make unsubstantiated statements let us tease out an example:If you have an office or dwelling of a large area and want to install an appropriate device that needs and is supposed to provide fresh air supply and process it; (cleaning, heating and moistening during a winter period plus cooling in summer) you have to choose a good central conditioning system, where the chiller is adequate to support the climatic parameters for the premises in question. The fresh air consumption is estimated and set up due to the environmental health and safety code requirements. Thus, ventilation with fresh air creates a comfortable atmosphere in the building without any draught and stuffy heat.

As you can see this type of air conditioning system is not intended to provide very low temperatures, it is ideal for big offices and large area premises. However this kind of cooling system can be useless or less efficient in some industrial spheres where the temperature should be very low and must remain always at a steady constant, otherwise even a slight temperature drop can cause damage to your products and subsequent business. In this case high quality refrigeration devices are obligatory.As you can see looking for a good chiller for your needs you should be guided not only by personal wishes but focus greatly on every detail of its functionality and thus choose the most applicable one for the objectives.

For instance, there are chillers that cool by air and then there are units which refrigerate system by water. It should be observed that these two types are very alike and operate towards a similar task however their functionality often differs with regard to the company’s individual needs and purposes. There is no doubt that a chiller operating by water is the most practical choice, however, water chillers are a good choice if not ideal for installations that have a ready and cheap water source; for example it can be a plant refrigeration water system or a cooling tower near a water source. Whereas if this was in the middle of an arid area where water was more expensive an air system would come into its own. This simple yet important difference usually figures the basis upon which firms choose which sort of air cooled chillers is best for them.

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Source by Travis Olague

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An air conditioner can be an essential product for your home, especially in the heat of summer when you want to keep the inside temperature bearable. These products are widely available in different sizes, different brands and different types, so you need to decide which one you feel will benefit you the most.

There are some factors you should take into consideration before making a final decision. One of these is the efficiency of the unit. While you want your interior air to remain cool, you don’t want your energy bill to sky rocket through the roof, which is why you need to pay very careful attention to the overall efficiency of the product and choose one that won’t break the bank every time you switch it on.

Another important consideration, is while you may not know the manufacturer names, you need to ensure the air conditioner you are looking at is reliable and dependable. Once installed you don’t want to replace the product any time soon, it should last for years, providing your family with cool temperatures in the home while it’s sweltering outside.

Ensure you visit some stores and see the air conditioners working. Because the product is being placed in your home, the last thing you want is excessive noise, making it hard to relax or watch television. You want a product that will run quietly while providing your family with cool air.

The size of the unit is exceptionally important and you should discuss this in detail with the companies you are speaking to about supply. You don’t want a unit that is too small, as it won’t be able to keep the property cool and too big, also has negative impacts on your energy efficiency, not to mention is overkill. You need the best solution for the size of your home; based on number of rooms you require cooling and the size of those rooms.

When looking at the various air conditioners available, you will notice you can choose between wall mounted and central options. Wall mounted are stylish in design and are placed on a wall, cooling a single room.

Central units on the other hand provide a complete cooling system throughout the home, using ducts to cool the home in summer months.

Design is another important element. If you have a modern home, you’re not going to want to place an older window mounted air conditioner in a room; you’re going to want to choose stylish, elegant and sophisticated wall mounted or central cooling systems.

Ensure you use a company that you are comfortable with and that has extensive experience and knowledge in the air conditioner industry. This way you can trust their recommendations and suggestions based on the size and number of rooms you have in your home.

The company should provide you with a number of different air conditioner solutions for you to choose from. They should explain why they believe these are the right choice for you and then leave you to do your own research on the products available.

When you receive a quote, ensure you go online and learn as much about each product as possible, enabling you to make an informed decision on the best choice for you and your family.

Ensure you check on their installation procedures; see how long it will take for delivery and how experienced their team is on installations. You want peace of mind that you will have a trustworthy and experienced team in your home that will do a top quality installation job, which will last for many years.

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Source by Stan Schneider

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Though never directly articulated by any data center authority, the prevailing practice surrounding these critical facilities has often been “The colder, the better.” However, some leading server manufacturers and data center efficiency experts share the opinion that data centers can run far hotter than they do today without sacrificing uptime and with a huge savings in both cooling related costs and CO2 emissions. One server manufacturer recently announced that their rack of servers can operate with inlet temperatures at 104 deg F.

Why does it feel the need to push the envelope? The cooling infrastructure is an energy hog. This system, operating 24x7x365, consumes a lot of electricity to create the optimal computing environment, which may hover anywhere between 55 to 65 deg F. (The current “recommended” range from ASHRAE is 18-27 C or 64.4 deg F through 80.6 deg F)

To achieve efficiencies, a number of influential end users are running their data centers warmer and are advising their contemporaries to follow suit. But the process isn’t as simple as raising the thermostat in your home. Here are some of the key arguments and considerations:

Position: Raising server inlet temperature will realize significant energy savings.

Arguments for:

o Sun Microsystems, both a prominent hardware manufacturer and data center operator, estimates a 4% savings in energy costs for every one (1) degree increase in server inlet temperature. (Miller, 2007)

o A higher temperature setting can mean more hours of “free-cooling” possible through air-side or water side economizers. This information is especially compelling to an area like San Jose, California, where outside air (dry-bulb) temperatures are at or below 70 deg F for 82% of the year. Depending on geography, the annual savings from economization could exceed six figures.

Arguments Against:

o The cooling infrastructure has certain design setpoints. How do we know that raising server inlet temperature won’t result in false economy, causing additional, unnecessary consumption in other components like the server fans, pumps, or compressors?

o Free-cooling, while great for new data centers, is an expensive proposition for existing ones. The entire cooling infrastructure would require re-engineering and may be cost prohibitive and unnecessarily complex.

o Costs from thermal-related equipment failures or downtime will offset the savings realized from a higher temperature setpoint.

Position: Raising server inlet temperature complicates reliability, recovery, and equipment warranties.

Arguments for:

o Inlet air and exhaust air frequently mix in a data center. Temperatures are kept low to offset this mixing and to keep the server inlet temperature within ASHRAE’s recommended range. Raising the temperature could exacerbate already-existing hotspots.

o Cool temperatures provide an envelope of cool air in the room, an asset in the case of a cooling system failure. The staff may have more time to diagnose and repair the problem and, if necessary, shut down equipment gracefully.

o In the case of the 104 degree F server, what’s the chance every piece of equipment-from storage to networking-would perform reliability? Would all warranties remain valid at 104 deg F?

Arguments Against:

o Raising the data center temperature is part of an efficiency program. The temperature increase must follow best practices in airflow management: using blanking panels, sealing cable cutouts, eliminating cable obstructions under the raised floor, and implementing some form of air containment. These measures can effectively reduce the mixing of hot and cold air and allow for a safe, practical temperature increase.

o The 104 degree F server is an extreme case that encourages thoughtful discussion and critical inquiry among data center operators. After their study, perhaps a facility that once operated at 62 deg now operates at 70 deg F. These changes can significantly improve energy efficiency, while not compromising availability or equipment warranties.

Position: Servers are not as fragile and sensitive as one may think. Studies performed in 2008 underscore the resiliency of modern hardware.

Arguments For:

o Microsoft ran servers in a tent in the damp Pacific Northwest from November 2007 through June 2008. They experienced no failures.

o Using an air side economizer, Intel subjected 450 high density servers to the elements-temperatures as high as 92 deg and relative humidity ranges from 4 to 90%. The server failure rate during this experiment was only marginally higher than Intel’s enterprise facility.

o Data centers can operate with a temperature in the 80s and still be ASHRAE compliant. The upper limit of their recommended temperature range increased to 80.6 deg F (up from 77 deg F).

Arguments Against:

o High temperatures, over time, affect server performance. Server fan speed, for instance, will increase in response to higher temperatures. This wear and tear can shorten the device’s life.

o Studies from data center behemoths like Microsoft and Intel may not be relevant to all businesses:

o Their enormous data center footprint is more immune to an occasional server failure that may result from excessive heat.

o They can leverage their buying power to receive gold-plated warranties that permit higher temperature settings.

o They are most likely refreshing their hardware at a more rapid pace than other businesses. If that server is completely spent after 3 years, no big deal. A smaller business may need that server to last longer than 3 years.

Position: Higher Inlet Temperatures may result in uncomfortable working conditions for data center staff and visitors.

Arguments for:

o Consider the 104 degree F rack. The hot aisle could be anywhere from 130 deg to 150 deg F. Even the higher end of ASHRAE’s operating range (80.6 deg F) would result in hot aisle temperatures around 105-110 deg F. Staff servicing these racks would endure very uncomfortable working conditions.

o Responding to higher temperatures, the server fan speed will increase to dissipate more air. The increased fan speed would increase the noise level in the data center. The noise may approach or exceed OSHA sound limits, requiring occupants to wear ear protection.

Arguments Against

o It goes without saying that as the server inlet temperature increases, so does the hot aisle temperature. Businesses must carefully balance worker comfort and energy efficiency efforts in the data center.

o Not all data center environments have high user volume. Some high performance/supercomputing applications operate in a lights-out environment and contain a homogeneous collection of hardware. These applications are well suited for higher temperature setpoints.

o The definition of data center is more fluid than ever. The traditional brick and mortar facility can add instantaneous compute power through a data center container without a costly construction project. The container, segregated from the rest of the building, can operate at higher temperatures and achieve greater efficiencies (Some close-coupled cooling products function similarly).

Conclusions

The movement to raise data center temperatures is gaining but it will face opposition until the concerns are addressed. Reliability and availability are at the top of any IT professional’s performance plan. For this reason, most to date have decided to error on the side of caution: to keep it cool at all costs. Yet, higher temperatures and reliability are not mutually exclusive. There are ways to safeguard your data center investments and become more energy efficient.

Temperature is inseparable from airflow management; data center professionals must understand how the air gets around, into, and through their server racks. Computational fluid dynamics (CFDs) can help by analyzing and charting projected airflow on the data center floor, but as cooling equipment doesn’t always perform to spec and the data you enter could miss some key obstructions, onsite monitoring and adjustments are critical requirements to insure that your CFD data and calculations are accurate.

Data centers with excess cooling are prime environments to raise the temperature setpoint. Those with hotspots or insufficient cooling can start with low-cost remedies like blanking panels and grommets. Close-coupled cooling and containment strategies are especially relevant, as server exhaust air, so often the cause of thermal challenges, is isolated and prohibited from entering the cold aisle.

With airflow addressed, users can focus on finding their “sweet spot”-the ideal temperature setting which aligns with business requirements and improves energy efficiency. Finding it requires proactive measurement and analysis. But the rewards-smaller energy bills, improved carbon footprints and a message of corporate responsibility-are well worth the effort.

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Source by Ariel Liu

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If you are going to be shopping for a new Portable Evaporative Cooler, or Swamp Cooler as some call them, I would like to make a few suggestions. Champion Cooler Corporation makes five models in the Gadabout Series that you will find are excellent choices. Each model fits a particular need from the smallest model, the Champion M150, to the largest model, the Champion M500. I will mention a few features about each of the five models. There are dozens of businesses that sell Champion Portable Coolers online and will ship them to your home or business. I recommend checking prices and shipping costs at several of these businesses as prices can vary greatly. Go to Google or Yahoo and type in Champion Gadabout Coolers and you will find quite a few businesses listed. They will also list the features as well as pictures of each model. I will mention a few features that I like.

The Champion M150 is the smallest Gadabout model. It is shaped similar to a box fan but is about 17 inches thick. This model has a handle and is on casters for easy mobility. The fan has a 1/8 HP motor with 3 speeds. Even though this motor uses very little power it delivers 1100 CFM on high speed.

The Champion M201 is a larger model, and as with the rest of the Gadabout models, is more of a square shape. This model, as well as the next three I will describe, is generally used in garages and work shops. It is also on casters like the rest of the Gadabout units. This cooler should be used for cooling areas up to 700 square feet. The Champion M301 is the next Gadabout model and is a little larger. This model weighs about 100 pounds and may be too large for a home Portable Cooler. It has a 2 speed motor and cools up to 1000 square feet. Once again the Champion M401 is larger yet. The M401 can cool up to 1400 square feet and comes with a 4 way directional grille with easy move vanes.

The largest of the Gadabout models is the Champion M500. Even though this model weighs 195 pounds, as with the other Gadabouts, it is on casters and is easily moved around in your shop. With the Champion M500 Cooler you can cool a large area. It delivers 5000 CFM with it’s 3/4 HP, 2 speed motor. This model also has a 4 way directional grille with easy move vanes. There are two other features that make the Champion M500 superior to other Portable Evaporative Coolers. It has a 47 gallon reservoir to give more cooling time between refills. It also comes with a 20 foot cord with a GFCI safety plug.

As you can see the Champion Gadabout Coolers are made for every situation and need. I have not only used Champion Evaporative Cooler products, but I have also visited the Champion factory to watch them build their products. I recommend that you consider Champion Coolers.

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Source by Aaron Washburn

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Tanning beds made by Wolff are the best in the business, ranging in number of bulbs, sizes, and models. They all meet the quality control standards of the company and each bed carries either an eighteen month or twenty-four month warranty. Residential tanning beds offer you the convenience of sunshine right in your own home that you can enjoy in private listening to music you like and relaxing as your turn golden brown. One of Wolff’s finest residential tanning beds is the SunQuest 24RS.

About The SunQuest 24RS

The SunQuest 24RS is one of Wolff’s finest creations. Made with 24, 100-watt Wolff lamps – 12 in the canopy and 12 in the bed – each is angled to provide you with the maximum rays possible to get a rich, golden tan. The bed comes with an optional SolarMax T IFT facial tanner if the customer wishes for it. The tanner has one 400 watt lamp. Each bed automatically comes with the protective canopy grid to allow more of the rays to reach the tanner and allow for a more level tan overall.

Like its sister 16-lamp SunQuest 16RS, the 24RS is in the unique and popular Bio-tech tunnel design. This design lays the tanner in the middle of the wide, curved bench, allowing the tanning rays to reach more skin area without hot or cool spots. The total tanning surface of this bed is seven foot, one of the biggest to be made. The lamps are staggered as well and the reflectors are made of special glossy aluminium.

Additional Features of the 24RS

Wolff’s SunQuest 24RS bed comes with the quick clip acrylic removal system on the canopy and bench, allowing for deeper cleaning of the acrylic and reflectors, and ease in changing your lamps. It has efficient choke ballasts, and it includes a redundant back-up timer in addition to the main digital timer, which is rated for twenty minutes maximum. It also comes with a super flow internal cooling system, and optional body cooling fan.

The SunQuest 24RS is best used in a room with at least eight foot by eight foot available. It requires a 220 volt dedicated circuit, twenty amp circuit breaker, and a twenty amp NEMA #6-20R rated receptacle for proper use.

SunQuest 24RS’s Warranty

The SunQuest 24RS tanning bed comes with Wolff’s eighteen month ‘Bronze Medal’ warranty. This warranty includes but is not limited to: eighteen months on parts, one year on acrylics, ninety days on lamps and starters, six months on labour and lifetime warranty from structural defects. If you are purchasing your tanning bed used, inquire about the warranty. Sometimes there is some of the warranty left on the bed and depending on where you purchase it from, an extended warranty may be available.

The SunQuest 24RS by Wolff prices at around $3,899.00. When using any tanning bed, always use the proper protective gear and recommended cleaning products to ensure safe tanning and maximum use of your residential equipment.

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Source by Robert Newsome

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Heating, Ventilation, and Air Conditioning systems need to be cleaned, inspected, and serviced every year, at the very least. It’s advisable to have your heating system examined by a technician during fall and your cooling system checked in spring to make sure they’re in perfect condition when you need to use them.

In this article, we’ll discuss a few things you need to consider to learn why annual HVAC system inspection is necessary:

As your HVAC equipment ages, it becomes less efficient and starts undergoing problems that require your immediate attention. There many factors that can contribute to the slow decline of your system, such as dirty and clogged vent, degrading moving parts like the condenser coil, a decrease in the fluids, etc.

If you get your system serviced regularly, you’ll be able to minimize the problems that are expected to arise with time, increase the life span of your system, and make sure your utility costs don’t increase due to the units working extra hard to meet all your comfort needs.

You may think that paying for a yearly inspection is a lot of money, especially if your system hasn’t shown any visible signs of malfunction. However, when you ignore preventive measures, you’ll increase the chances of your HVAC system running a lot less efficiently and it may suffer a breakdown sooner than you expected.

This would lead to an increase in your utility costs and the price you’d have to pay for repairing different components that you ended up neglecting over the months. It’s better to pay a small amount for routine service instead of letting the repair and maintenance costs add up over time.

As you’re probably aware, your HVAC system is good for more than your heating or cooling your property. It’s also responsible for proper ventilation and improved air quality.

When you have a well-maintained system that’s in optimal working condition, you wouldn’t have to worry about pollutants, dusts, and other such irritants causing health complications for you and your loved ones.

It’s not as simple as hiring a service technician to take a look at your unit once or twice every year. If you truly want your HVAC to last longer, you need to take preventive measures to maintain it regularly.

This may include keeping your outdoor units clean and free of dirt and debris and checking for any water leaks in the system, strange noises, and uneven temperatures. It’s also important to clean or replace your air filters every month at least to minimize the load on your unit and make sure it works smoothly.

It can be easy to overlook problems in your HVAC system when it’s not in use, but delaying routine service can lead to a major breakdown when you least expect it. Don’t take your well-running HVAC unit for granted and make sure you’re getting it serviced regularly so that it can work efficiently for a long period of time.

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Source by David Kagan

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As a matter of fact, cooling towers are most often considered as important requisites in the setting up of industries manufacturing petroleum refinery, petrochemicals, nuclear power plants; electricity generating, chemical processing, air conditioning and natural gas processing. These towers provide higher levels of cooling crucial for the smooth functioning of all industrial applications.

Industrial cooling towers in a broader sense are essential heat removal devices that release process waste heat into the atmosphere via an internal circulating system that is installed within the tower. This system absorbs all the heat from within and in the process emits highest levels of cooling. The heat required to evaporate is derived from the water itself which causes it to cool down in a process known as evaporative cooling system. A great solution provider to all industrial applications, these towers has surely come a long way, facilitating the cutting short of time and energy upon installation. They are a one time investment and are extremely durable as they are manufactured using heat resistant materials that can sustain high temperatures.

These towers are available in various sizes according to the industrial requirements; with a standard size that is 200 meters long and 100 meters wide. Cost effective and energy saving devices, these towers are available in the form of rectangular, round bottle, cross flow and fan and fills less cooling towers. Popular of them all is the round bottle cooling tower, which is manufactured using fiberglass reinforced plastic which is highly corrosion resistant and gives sufficient structural strength to the tower to be able to withstand high wind velocity and vibration. These towers contain enough storage space intended for a greater storage of water for a trouble free and non stop operation. The tower is constructed using devices that ensure non stop functioning basically comprised of a fan, fan motor, water distribution system, fills and a steel structure. The corrosion resistant axial flow type, light weight fan installed at the topmost part of the tower, ensures high energy savings generating maximum air flow at minimum pitch angle of blades. The low weight PVC fills in its place functions best at generating high performance and resistance against corrosion. These fills strike a perfect balance between heat transfers in comparison to the minimum restriction of air flow. What’s more, the steel structure of fan supports, motor stands and other bolts are made of superior quality steel that can withstand any internal activity.

The round bottle cooling towers have been much appreciated by industry users on account of their benefits of being sustainable, cost effective and long lasting. This tower is available with many companies these days in any size specifications at unbelievable rates.

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Source by John Tweak

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While centralized air conditioning definitely consumes more power than the small ones on the window, or the split air conditioners in recent times, it is possible to cut down cooling costs by following some of air conditioning tips listed here, irrespective of the type of air conditioning.

Air Conditioning Tips for Cost-Effective Cooling

Here are some sure-fire ways to make summers more pleasant and easy on the pockets:

Opt for Energy Star Products

Opt for air conditioners with an energy star rating to ensure that the device consumes relatively lesser energy than other conventional units in the market. The type of air conditioner really doesn’t matter, for both central and window energy star ACs offer the same cooling effects as their non-energy star counterparts, but consume lesser power. Energy star centralized ACs reportedly consume 14% less energy while the window units can function on at least 10% lesser energy than conventional units.

Do not hesitate to replace inefficient air conditioning units with energy star products if the old units have served their time. While energy star products tend to be slightly pricier, the costs are recoverable with lower energy bills over time. Energy efficiency figures tend to vary from one product to another, though!

Thermostat Settings

Installing programmable thermostats to control the level of cooling is a neat way to cut down power consumption and, hence, the costs. It is perfectly okay to set the temperature to a couple of degrees lower than usual when at home – an ideal setting of 78 degrees keeps the space comfortably cool without overburdening the cooling system. Any drastic changes in temperature do tend to consume more energy.

However, turning up the temperature to fall just a tad less than the temperature outdoors (usually 85 degrees) when away from home, ensures a minimum load on the air conditioning unit, allowing it to quickly cool down when needed.

Ventilation, Insulation and Glazing

A well-ventilated attic space allows most of the heat absorbed by the roofing to dissipate before it gets to the room ceiling. Again, as cooler air tends to settle down, it is important to ensure that all vents in the basement are sealed to prevent the cool air from escaping into the open.

Insulating the home ensures that the cooling, once achieved, is not compromised by unwanted air drafts into or out of the home’s interiors. Sealing cracks and crevices, especially filling gaps around doors and windows, utility ducts, etc. will help maintain the space’s chillness for a longer time.

Glazing glass window panes, or using tinted panes, or those with special UV reflective coatings can help keep heat from being absorbed into homes via the glass on windows and doors.

Limit Heat Generation During The Day

Air conditioning systems work to cool interior spaces by removing heat. One or more constant sources of heat within the home during the day force the unit to work extra-time to achieve the set temperature. Home appliances, bright lights, and even personal computers generate a great deal of heat during their normal operations. Limiting the use of heat-generating devices and appliances during the day time not only helps save energy, but also prevents cooling systems from extra strain.

Home Décor

From wall paints to upholstery and curtains, it is a known fact that dark colors tend to absorb heat and then dissipate them. Settling for reflective, light-colored paints for exterior walls, and pastel shaded upholstery and drapes can help minimize heat absorption. Placing furniture pieces away from direct sunlight also helps prevent them from imbibing heat. In fact, keeping heavy pieces of furniture away from A/C vents will enable free circulation of cooled air.

Ceiling fans can help take the pinch off the summer heat, especially when used along with air conditioners. Once the interiors are sufficiently cool, ceiling fans can be used to circulate air to all parts of the room.

Home Exteriors

The green cover in the immediate outdoor environment also plays a vital role in keeping home interiors cool and comfortable. Plants and shrubs around the home offer respite against the heat. Placing air conditioning condenser units in a sheltered, clutter-free spot ensures that hot air from the home is efficiently flushed out.

Changing the filters regularly and keeping air conditioned units in good shape with basic maintenance are mandatory to boost savings.

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Source by Dave Adamson

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As electronic equipment has advanced, so has the need for effective cooling systems in order to keep processes running optimally. With devices generating high levels of both heat and sound, products such as the fan tray assembly and anti vibration mounts have become even more advanced, with a number of different products on the market to meet all kinds of customer needs.

The problem of overheating can be common when it comes to PCs and laptops, yet the situation can become a lot worse in the case of electronics that are operating in cabinets or other enclosed spaces, with the reduced airflow dramatically raising temperature. The installation of an adequate cooling fan or fan tray assembly is therefore essential for keeping temperatures at reasonable levels.

So, just why is overheating so bad and why are cooling systems so useful? There are numerous reasons why installing a fan system is a good idea, some of which will be explored below.

Firstly, if electronic equipment heats up too much, it can simply cut out in order to cool down. This is not only a major inconvenience, but can actually cause serious damage to the equipment components too. It should also be noted that overheated equipment can be a serious fire hazard, which is not good in either the home or the workplace.

Overheating can also cause electronics to function more slowly, even if they do not stop working completely. This is because in-built fans may be working exceptionally hard at keeping temperatures down due to elevated levels of heat. A solution would be to add a fan tray assembly or other cooling fan system in order to provide adequate levels of cooling.

Fans that are working too hard to lower high temperatures can also cause a great deal of noise. This can be at best distracting, and at worst unbearable, especially in the workplace where there is a large amount of electronic equipment. Again, adequate cooling systems such as a fan tray assembly can stop fans striving to keep temperatures down and keep noise at an acceptable level.

Another factor touched on above is that critical components of electronic equipment may be damaged if exposed to elevated temperatures. As all electronic components have maximum temperature ratings, overheating caused by insufficient cooling can cause serious damage to essential and costly equipment.

There are many ways to avoid all the negative effects of overheating – and the main one is prevention. The easiest way to do this is by keeping electronics in a cool environment that is well-ventilated so that temperatures do not rise to a dangerous level, running the risk of the problems listed above.

Installing a cooling fan system or fan tray assembly is one way to keep areas well ventilated and air circulating sufficiently in order to keep electronics from overheating. Heat produced by these devices will dissipate a lot faster if the surrounding air is cooler, meaning temperatures are kept in an acceptable range.

In addition to installing the right equipment it is important to keep it well-maintained. Cleaning the cooling fan system regularly will help the fan operate optimally, ensuring that in turn your electronics are kept at a reasonable temperature for efficient functioning. Regular cleaning will clear out all dust and fluff that will impair fan functioning and pose a potential fire hazard.

For personalised advice on which cooling fan systems or fan tray assembly products are appropriate for your electronics and their particular installation and use, it is always best to consult with a specialist designer and manufacturer of these products.

With their expert knowledge, you will be able to create an environment that ensures optimal functioning of your electronic equipment and minimises risk and potentially costly damage.

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Source by Johny Brown