BLUE ENERGY International, LLC adiabatic systems are used to decrease electricity consumption where at the same time to increase the cooling capacity. To avoid overheating  and to lengthen the life span of the whole cooling system. They are meant to be used in warm and hot weather conditions where temperature reaches over 25 degrees Celsius (77 F). Adiabatic, evaporative cooling panels Blue Energy “Smart cooling™” are installed before the condenser of air conditioning and cooling unit. The temperature of air passing through the panel is reduced because warm air is cooled by water mist created before air conditioning and cooling facilities (a special liquid spray technology Smart release technology is used, which allows you to spray water into tiny droplets). Upon contact with warm air, some water evaporates. As a result, there is an exchange of energy and the temperature is lowered. Thus, the temperature of air entering the cooling and conditioning unit becomes considerably lower (average of 10 – 20°C), which allows the unit to consume significantly less power to provide the necessary temperature.

The power consumption lowers and the lifetime of air conditioning and cooling units extends. To further lower the temperature of the air entering the cooling and conditioning unit the special membranes are used which reflects sun rays. Thus, condenser of the unit are protected. Adiabatic, evaporative cooling panel Blue Energy “Smart cooling™” consists of the following components:oasis auto repair tempe az Adiabatic, evaporative cooling panel Blue Energy “Smart cooling™” can be installed on air conditioning and cooling units of any manufacturer. lowes ac units with heatA special technology allows you in the shortest possible period of time (one day) to prepare a solution for air conditioning systems of almost any manufacturer and capacity. honeywell ac unit says wait

Adiabatic, evaporative cooling panel Blue Energy operates completely independently of the technological processes of air conditioning systems. It only cools the incoming air, allowing the air conditioning system to consume less energy and produce more cooling capacity. Efficiency in hot weather is therefore increased. Adiabatic, evaporative cooling panel Blue Energy was installed on the air conditioning systems of the leading manufacturers including: YORK, LENNOX, DAIKIN, Airwell, McQuay, RHOSS, TRANE and Carrier. Adiabatic, evaporative cooling panel Blue Energy “Smart cooling™” is recommended by service – companies maintaining air conditioning and cooling units. Each manufacturer of air conditioning and cooling units provides a calculation of efficiency of their facilities. It specifies what cooling power (KW/h) is provided by the unit at a specific temperature of the air entering the system. The higher inlet air temperature is, the higher the power consumption for the necessary cooling capacity.

The average decrease of air temperature by 1°C improves the efficiency of air conditioning and cooling units by 1.8%. That is, you need by 1.8% less energy to achieve a desired temperature. Due to the use of the adiabatic, evaporative cooling panel Blue Energy “Smart cooling™“, the temperature of the air entering air conditioning and cooling units drops by an average of 10 – 20°C. The result is energy savings of up to 30%. View a specific example of how energy saving is possible (Schneider Electric). Taking into account the energy savings during the use of the adiabatic, evaporative cooling panel Blue Energy “Smart cooling™”, the panel installation cost pays off for 12-24 months of operation. It should be also taken into account that if the air conditioning and cooling unit is for a long time working at maximum capacity, or condenser are poured with water to cool the incoming air, then over time, there will be a deterioration of compressors and plaque on the condenser.

As a result, the efficiency of the system substantially decreases. Performed calculations show that with this approach (working at maximum capacity, pouring with water) the air conditioning and cooling unit loses on average up to 12 – 18% of its efficiency per year. So, for example, the manufacturer YORK points out that because of the build-up of plaque on the condenser, air conditioning and cooling systems lose up to 30-40% of their cooling capacity. It should be appreciated that if you pour air conditioning and cooling units with water, plaque build-up problems begin after the second season of using this method. Given this fact, the effect of the use of the adiabatic, evaporative cooling panel Blue Energy “Smart cooling™” becomes even more important, because it provides a significant reduction in operating costs of air conditioning and cooling units and extends its lifetime. For maximum savings, you should install the adiabatic, evaporative cooling panel Blue Energy “Smart cooling™” in advance.

Legionnaires' disease usually develops two to 10 days after exposure to legionella bacteria. It frequently begins with the following signs and symptoms: Fever that may be 104 F (40 C) or higher By the second or third day, you'll develop other signs and symptoms that may include: Cough, which may bring up mucus and sometimes blood Gastrointestinal symptoms, such as nausea, vomiting and diarrhea Confusion or other mental changes Although legionnaires' disease primarily affects the lungs, it occasionally can cause infections in wounds and in other parts of the body, including the heart. A mild form of legionnaires' disease — known as Pontiac fever — may produce signs and symptoms including a fever, chills, headache and muscle aches. Pontiac fever doesn't infect your lungs, and symptoms usually clear within two to five days. When to see a doctor See your doctor if you think you've been exposed to legionella bacteria. Diagnosing and treating legionnaires' disease as soon as possible can help shorten the recovery period and prevent serious complications.

For people at high risk, prompt treatment is critical. The bacterium Legionella pneumophila is responsible for most cases of legionnaires' disease. Outdoors, legionella bacteria survive in soil and water, but rarely cause infections. Indoors, though, legionella bacteria can multiply in all kinds of water systems — hot tubs, air conditioners and mist sprayers in grocery store produce departments. Although it's possible to contract legionnaires' disease from home plumbing systems, most outbreaks have occurred in large buildings, perhaps because complex systems allow the bacteria to grow and spread more easily. How the infection spreads Most people become infected when they inhale microscopic water droplets containing legionella bacteria. This might be the spray from a shower, faucet or whirlpool, or water dispersed through the ventilation system in a large building. Outbreaks have been linked to a range of sources, including: Hot tubs and whirlpools on cruise ships

Grocery store mist machines Cooling towers in air conditioning systems Water systems in hotels, hospitals and nursing homes Although legionella bacteria primarily spread through aerosolized water droplets, the infection can be transmitted in other ways, including:This occurs when liquids accidentally enter your lungs, usually because you cough or choke while drinking. If you aspirate water containing legionella bacteria, you may develop legionnaires' disease.A few people have contracted legionnaires' disease after working in the garden or using contaminated potting soil. Not everyone exposed to legionella bacteria becomes sick. You're more likely to develop the infection if you:Smoking damages the lungs, making you more susceptible to all types of lung infections. Have a weakened immune system as a result of HIV/AIDS or certain medications, especially corticosteroids and drugs taken to prevent organ rejection after a transplant. Have a chronic lung disease such as emphysema or another serious condition such as diabetes, kidney disease or cancer.

Are 50 years of age or older. Legionnaires' disease is a sporadic and local problem in hospitals and nursing homes, where germs may spread easily and people are vulnerable to infection. Legionnaires' disease can lead to a number of life-threatening complications, including:This occurs when the lungs are no longer able to provide the body with enough oxygen or can't remove enough carbon dioxide from the blood.This occurs when a severe, sudden drop in blood pressure reduces blood flow to vital organs, especially to the kidneys and brain. The heart tries to compensate by increasing the volume of blood pumped, but the extra workload eventually weakens the heart and reduces blood flow even further.This is the sudden loss of your kidneys' ability to perform their main function — filtering waste material from your blood. When your kidneys fail, dangerous levels of fluid and waste accumulate in your body. When not treated effectively and promptly, legionnaires' disease may be fatal, especially if your immune system is weakened by disease or medications.