4 Advances In Air Conditioning Technology
Towns, cities, and states could experience extreme heat at some point, particularly those in a tropical location. The believed cause of this drizzling heat is urbanization, where there’s a growing population rate. Another reason could be climate change. As the atmosphere gets warmer due to global warming, people will eventually look for something to escape the heat.
That’s how the need for developments in air conditioning technology arose. People seemed to demand their homes to be cooled and comfortable. For that reason, the installation of these efficient cooling systems was continuously innovated and made more effective to remove heat from households indoors.
Since people seem to like it and its benefits of cooling their homes, air conditioning stores were established, including those on the internet. Some even invented air conditioners that don’t just generate cool air but also warm air for those living in freezing locations. Vast selections of air conditioners were made available on businesses like PTAC Inc. and many more, that’s believed to provide quality units and detailed information about such.
Cool Developments in The Air Conditioning Technology
The past versions of air conditioners were believed to have posed negative impacts on the environment. The leading cause of it was how it dispersed heat to the environment, producing more unwanted heat zones. To address this issue, new advancements were demonstrated to be energy efficient and minimize environmental impacts.
Aside from cooling and dehumidification, read below how air conditioners developed over the years.
Absorbent-Coated Heat and Mass Exchanger (ACHME)
Standard vapor confining air conditioning systems are thought of as energy-concentrated. It utilizes high-grade electrical energy. However, no compressor or chemical coolers are needed in an absorbent-coated heat and mass exchanger. This advancement is thought to allow cooler air in homes, office establishments, and industrial places with its water-fueled air conditioners. Such an upgrade allowed no production of greenhouse gas emissions.
These types of air conditioners are said to benefit from a thermodynamic sequence called the M-Cycle. This cycle governs the continuous supply of climatic energy to operate practical cooling with superior efficiency. In the case of the ACHME, cool air could be made by a water-fueled cycle that doesn’t need dampness.
Absorbent-coated heat and mass exchangers are believed to be classified as a reasonable energy-efficient option for producing a dehumidified cool air using low excess heat and sustaining the cooling capacity of air conditioning areas.
Liquid Desiccant Air-Conditioning Systems
An air conditioning system may remove moisture and underlying heat from processed air with a liquid desiccant substance. Through liquid desiccant air conditioning systems, the growth of bacteria and molds on wet surfaces and its possibility to cause health issues can be avoided.
With this advancement, moisture may be intercepted by an antibacterial desiccant liquid instead of compressing at lowering temperatures. It’s also thought to be operated quickly and maintained with no complicated mechanical designs and parts. Its environmentally friendly properties also seem to be sustainable and non-pollutant.
The primary advantage of these types of systems could be their potential to eliminate the evaporation of heat through the process of dehumidification, along with their capability to cool air and lessen the renewal of air equipment with reformed desiccant.
Membrane Air Dehumidification (MAD)
The membrane-based air dehumidification system is a newly developed dehumidification technology. Through this configuration, moisture is being isolated from humid air through a particular membrane. Vapor molecules are permitted to shift from a membrane’s side at a great concentration to the membrane’s other side at a moderate concentration.
Membrane air dehumidification systems are said to have been used in warming, refreshing and air conditioning, air dehumidification, and some other manufacturing areas. Users can easily apply it, and it seems to be versatile, which made it significant.
Combined Water Heater, Dehumidifier, and Cooler (WHDC)
The combination of a water heater, dehumidifier, and cooler is a compact and low-cost system that’s believed to dehumidify the surrounding air and capitalizes its energy for water heating. The water it condenses could be consequently returned to the drained air in an evaporative cooling method.
This technology advancement seems to employ the air conditioning’s passive load for residential water heating. This could result in conserving energy consumption when it comes to heating water and conditioning air.
Air dehumidification plays an essential role in enhancing air conditions and sustaining thermic convenience. People get to keep being comfortable and increase productivity indoors in terms of humidity and temperature. As a result, there was increased attention in developing and producing air conditioners.
Various research and proposals were believed to be addressed to improve air conditioning systems without emitting greenhouse gases and harming the environment. Hopefully, people shall benefit from sustainable resolutions using natural refrigerants in the near future.