According to a new market report published by Transparency Market Research "Global UV Disinfection Equipment Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast 2013 - 2019", the market was valued at USD 11.16 billion in 2012, and is expected to reach USD 15.90 billion by 2019, growing at a CAGR of 5.2% from 2013 to 2019. Lack of adequate power infrastructure and increasing demand for reliable electricity delivery are the major driving forces of this market.
Browse the full Global UV Disinfection Equipment Market Report: http://www.transparencymarketresearch.com/ultraviolet-disinfection-equipment.html
The UV disinfection market is booming due to the increasing safety concerns of the users which is inducing them to switch from the customary chlorine based disinfection to UV based disinfection. Several other benefits associated with the UV disinfection including its residue-less functioning, low installation and operation cost and ease of maintenance makes it the most sought after techniques for disinfection.
Government initiatives for providing safe drinking water to citizens are further increasing the scope of UV disinfection equipment. The fast growth of healthcare and chemical industries is offering opportunities for the air and surface segments of the UV disinfection equipment market.
In many places, the combination of ozone and UV disinfection is being used to create multiple barriers for Cryptosporidium (a disease causing gastrointestinal illness and diarrhea) and Giardia (the protozoan parasites causing Giardiasis). Where the average capital cost of Cryptosporidium inactivation by ozone is USD 8.1 million, it is USD 4.6 million for the combination of ozone and UV. Similarly, the annual operation and maintenance cost for water disinfection set-up of ozone is USD 460,000, while the same is USD 60,000 in case of disinfection set-up comprising a combination of ozone and UV.
While chlorine takes around 15-20 minutes of treatment time in the contact tank, UV treatment takes only 6-10 seconds. Being cost effective, UV treatment technique is gaining the market share.
One of the rules of EPA (Environmental Protection Agency) in relation to drinking water treatment is Long Term 2 (LT2) Surface Water Treatment Rule under which all public water systems in the U.S. that use surface water or ground water under the direct influence of surface water, are required to reduce source water Cryptosporidium levels by 2-logs (99%). Cryptosporidium microorganisms are resistant to chlorine, which is giving an opportunity for microfiltration, ozonation and UV disinfection.
Similar regulations were put into effect in the U.K. named Water Supply (Water Quality) Regulations introduced by the Drinking Water Inspectorate (DWI) in 2000 and further amended in 2007. Also, the U.K. Water Industry Research (UKWIR) is currently working on a project to determine the efficacy of UV disinfection and based on the observations will make recommendations on the operational guidelines for UV disinfection in the U.K.
In China, Office of the National Health and Family Planning Commission (NHFPC) released a draft in November 2013 dictating the use of newer technology in treatment of drinking water products by companies in this domain.
Health problems due to unavailability of safe drinking water have been one of the major reasons for the outbreak of diseases in developing countries. Contaminated water is home to microorganisms which cause several diseases including diarrhea, cholera, and hepatitis. Every year these diseases lead to 5 million deaths globally. This has increased concerns of the governments to improve the safety level of water. Several developing countries have been using chlorination for the disinfection of public water for a long time. However, advent of new diseases such as Cryptosporidium and Legionella pnemophilla, which are resistant to chlorine, has been compelling governments in countries such as China and South Africa to use newer technologies to tackle the health hazards caused by contaminated or unsafe water.
UV Light Emitting Diode (LED) is a new technology launched in 2012 which is picking up in the market at a fast pace due to its energy efficiency and compact size. Where the average annual energy consumption of a traditional UV lamp is around USD 4,562 per annum, the same for a UV LED based disinfection system costs around USD 279 per annum.
About us:
Transparency Market Research is a market intelligence company providing global business information reports and services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insight for thousands of decision makers.
We are privileged with highly experienced team of Analysts, Researchers and Consultants, who use proprietary data sources and various tools and techniques to gather, and analyze information. Our business offerings represent the latest and the most reliable information indispensable for businesses to sustain a competitive edge.
Contact:
Transparency Market Research
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Suite 700,
Albany
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Tel: +1-518-618-1030
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Website: http://www.transparencymarketresearch.com/
Browse the full Global UV Disinfection Equipment Market Report: http://www.transparencymarketresearch.com/ultraviolet-disinfection-equipment.html
The UV disinfection market is booming due to the increasing safety concerns of the users which is inducing them to switch from the customary chlorine based disinfection to UV based disinfection. Several other benefits associated with the UV disinfection including its residue-less functioning, low installation and operation cost and ease of maintenance makes it the most sought after techniques for disinfection.
Government initiatives for providing safe drinking water to citizens are further increasing the scope of UV disinfection equipment. The fast growth of healthcare and chemical industries is offering opportunities for the air and surface segments of the UV disinfection equipment market.
In many places, the combination of ozone and UV disinfection is being used to create multiple barriers for Cryptosporidium (a disease causing gastrointestinal illness and diarrhea) and Giardia (the protozoan parasites causing Giardiasis). Where the average capital cost of Cryptosporidium inactivation by ozone is USD 8.1 million, it is USD 4.6 million for the combination of ozone and UV. Similarly, the annual operation and maintenance cost for water disinfection set-up of ozone is USD 460,000, while the same is USD 60,000 in case of disinfection set-up comprising a combination of ozone and UV.
While chlorine takes around 15-20 minutes of treatment time in the contact tank, UV treatment takes only 6-10 seconds. Being cost effective, UV treatment technique is gaining the market share.
One of the rules of EPA (Environmental Protection Agency) in relation to drinking water treatment is Long Term 2 (LT2) Surface Water Treatment Rule under which all public water systems in the U.S. that use surface water or ground water under the direct influence of surface water, are required to reduce source water Cryptosporidium levels by 2-logs (99%). Cryptosporidium microorganisms are resistant to chlorine, which is giving an opportunity for microfiltration, ozonation and UV disinfection.
Similar regulations were put into effect in the U.K. named Water Supply (Water Quality) Regulations introduced by the Drinking Water Inspectorate (DWI) in 2000 and further amended in 2007. Also, the U.K. Water Industry Research (UKWIR) is currently working on a project to determine the efficacy of UV disinfection and based on the observations will make recommendations on the operational guidelines for UV disinfection in the U.K.
In China, Office of the National Health and Family Planning Commission (NHFPC) released a draft in November 2013 dictating the use of newer technology in treatment of drinking water products by companies in this domain.
Health problems due to unavailability of safe drinking water have been one of the major reasons for the outbreak of diseases in developing countries. Contaminated water is home to microorganisms which cause several diseases including diarrhea, cholera, and hepatitis. Every year these diseases lead to 5 million deaths globally. This has increased concerns of the governments to improve the safety level of water. Several developing countries have been using chlorination for the disinfection of public water for a long time. However, advent of new diseases such as Cryptosporidium and Legionella pnemophilla, which are resistant to chlorine, has been compelling governments in countries such as China and South Africa to use newer technologies to tackle the health hazards caused by contaminated or unsafe water.
UV Light Emitting Diode (LED) is a new technology launched in 2012 which is picking up in the market at a fast pace due to its energy efficiency and compact size. Where the average annual energy consumption of a traditional UV lamp is around USD 4,562 per annum, the same for a UV LED based disinfection system costs around USD 279 per annum.
About us:
Transparency Market Research is a market intelligence company providing global business information reports and services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insight for thousands of decision makers.
We are privileged with highly experienced team of Analysts, Researchers and Consultants, who use proprietary data sources and various tools and techniques to gather, and analyze information. Our business offerings represent the latest and the most reliable information indispensable for businesses to sustain a competitive edge.
Contact:
Transparency Market Research
90 State Street,
Suite 700,
Albany
NY - 12207
United States
Tel: +1-518-618-1030
USA - Canada Toll Free 866-552-3453
Email:ᅡᅠsales@transparencymarketresearch.com
Website: http://www.transparencymarketresearch.com/
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