Energia innovation


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Ozone generators for disinfection hotel rooms

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Energia innovation

  1. 1. INTRODUCTION The Evergreen Tecno and energia innovation ltd plants studying, designing and manufacturing machines, networks, and advanced technological systems for the treatment of air and water. All machines are proposing is the result of years of research, design and verification. Our mission is to promote alternative environmentally friendly so we are able to satisfy customer needs. These solutions improve the microbiological risk, achieving excellent results with particular attention with full respect for the environment. The use of ozone in air is a physical system, effective and safe for improving the microbiological safety of spaces and surfaces. It is ideal for eliminating bacteria, meld, viruses, and deodorization of indoor air. The air moved through the particles of dust, countless bacteria and viruses are the source of bad breath and various allergies of the respiratory system. With our systems we can inactivate and achieve a sense of freshness and wellness indoors. The disinfectant OZONE Ozone is a gas that comes from the trivalent oxygen. In nature created during storms, by electrical discharges produced by lightning in the atmosphere by radiation from the suns ultraviolet rays. In the mountains there in higher concentrations consistently have a sense of wellness and fresh air. Occurs as a colourless gas with a sharp and penetrating odor. The molecular weight of ozone is equal to 48 g / mol, at a pressure of 1 atm the melting point is at - 192,5 ° C and boiling point is at111,9 ° C. The high reactivity of native and decomposition of oxygen becomes ozone gas with a high potential use for air treatment. Thanks to its high oxidative activity (2.07 V), second only to fluorine is extremely effective for the elimination or inactivation of bacteria, meld, yeast, parasites and viruses. ACTION OF OZONE IN VIRUSES, BACTERIA, BEANS, AND FUNGI Protozoa VIRUSES BACTERIA FUNGI - SEEDS Protozoa Escherichia Coli Poliovirus Type 1 (Mahoney) Candida Tropicalis Naeglaria gruberi Legionella Pneumophila E221ADP Coxackie-Virus B5 Candida Parapsilosis Glardia muria Legionella Pneumophila E102A3DP Enterie Virus Pencilium Roqueforti Glardia Lamblia Mycobacterium Fortuitum Echo Virus Type 1 Pencilium Expansum Salmonella Typhimurium Bacteriophage f2 Pencilium Digitarum Fecal Streptococcus Human Rotavirus Aspergillus Glaucus Poliovirus type1 Sabin Aspergillus Flavus Aspergillus Niger Rhizopus Nigricans Mucor Racemosus (Β) Oospora Lactis Saccharomyces CerevisiaePDF created with pdfFactory Pro trial version www.pdffactory.com
  2. 2. LEGAL - INTERNATIONAL GUIDELINES • Directive 2003/40/CE ozone in water Use of ozone in bottled spring water • Law 81/2008 Obligations of employers to ensure adequate hygiene conditions at workplaces • Standing Conference of State Regions, October 5, 2006 Guidelines for determining technical protocols preventive maintenance of air handling systems. • Technical guidelines UN110339 Specifications of air systems to ensure comfort • Technical guidelines UN110637 Specifications for water disinfection and pool facilities • HACCP, EMAS, lSO14000 the applications layer give the advantage to obtain certification of environmental management. DISINFECTION USING AIR • Homes • Office space • Schools - Fitness • Areas of concentration • Hotels Disinfecting air, surfaces (walls, furniture, carpets, clothes) airway and ventilation and air conditioning inaccessible places such as ceilings and special configurations. After the disinfectant, ozone catalyzed oxygen, leaving a feeling of freshness and cleanliness in the area. Especially in pools need disinfection is becoming essential as the air content in bacteria is now recognized internationally as a determinant of quality of life and disinfection of hotel rooms with ozone is already a huge success in Europe after continuous growing customer demand. • Surgeries • Hospitals - Clinics • Workshops • Equipment decontamination tools Sites surgeries, dentists, medical laboratories and generally areas that have special health requirements, they can easily and quickly cleaned without using chemicals. Also the use of special chambers saturated air can be disinfected tools or other items of use. Air conditioning systems and ventilation systems (filters, heat units, vents, hatches and bulkheads) are always homes concentration of microbes which are transported through the air in the rooms are air-conditioned or ventilated. Often these are complex airway networks (large systems) which disinfection is time consuming, costly and sometimes impossible. The investigations became a significant sample of buildings showed that: * 65% are infected airway * 65% of facilities did not provide adequate change of air * 35% of samples found buildings allergy problems * 10% of the sample buildings are contaminated by pathogenic bacteria * 8% of the sample buildings were detected in air particles from glass fiber * 4% of air samples detected buildings carbon monoxide from car traffic.PDF created with pdfFactory Pro trial version www.pdffactory.com
  3. 3. The ozone disinfection offers: • Cleaning and disinfection of components (filters, humidifiers, heat exchangers) central air conditioning units without disassembly and the use of chemicals. • Cleaning and disinfecting the airways (even if they have internal insulation) without wearing them because it is not cleaned by mechanical means. • Speed cleaning is not required and movement of suspended ceilings, air ducts or orifices dismantled without hindering the daily activity of people living or working in the building. • Avoiding chemical pollution of the building by cleaning chemical residues • Minimize the cost and time of cleaning systems. DISINFECTION USING WATER Like chlorine, ozone, and so is one of the most common form of disinfectants. It has a much stronger and faster disinfectant than chlorine (300-3000 times), while achieving efficient destruction of viruses. In the case of chlorine oxidation agent is hypochlorous acid and requires the diffusion through the cell membrane to destroy the cellular material. Correspondingly, the UV radiation, essentially act as a "sterilizing" the microorganisms, seeking to prevent their proliferation. Unlike ozone acts directly and destroys the cell membrane itself, while not materially affect the pH so that no additives are required to correct it. The bactericidal action of ozone for the destruction of cell structures and even for viruses, requires residual concentrations between 0.2 and 0,5 mg / l with a contact time of 6 min (4 in pure water), while the usual dose is about 5 mg / l. Equally effective is the use of ozone for disinfection of drinking water, an area which has been implemented for 80 years in Europe and America • Homes • Office space • Restaurants • Schools • Rent a car • Cleaning surfaces with water containing ozone (furniture, walls, floors) • Wash utensils without chemicals (kitchens) • Clean water storage tanks • Cleaning of pipe and fittings of the water supply (water filters) • Clean water from springs and wells • Disinfection of drinking water • Food and Beverage Industry • Bottling of drinking water • Disinfection of packaging in tunnel • The fresh food (meat, fish, fruits, vegetables) are microbial exposure during processing and storing them. The disinfection of premises and equipment Food processing has been shown to drastically reduce their exposure to dangerous to public health germs. • The disinfecting water with ozone applied in water treatment and bottling in use in wines, beers and soft drinks. • Aquariums • Aquaculture • shellfish farming The disinfection of water in aquariums, fish and shellfish farms without chemical reduces their exposure to dangerous microorganisms without affecting the quality of water. Additionally achieved and control growth of algae in the water.PDF created with pdfFactory Pro trial version www.pdffactory.com
  4. 4. • Disinfection of transport vehicles sanitary materials (refrigerators, motorized hospital items) Vehicles transporting fresh food (fish, meat, vegetables) and microbiologically to heavy vehicles transporting materials (hospital waste or bedding) should be disinfected regularly and use ozonismenou water is an ideal fit low cost and high purity from an ecological point of view. • Treatment of toxic industrial waste Disinfection: The water treatment and sewage gas ozone (O3), is gaining ground in the last 20 years especially in industrial applications, gradually and steadily replacing chlorine. Ozone is a powerful oxidant and safer to use compared with other oxidizing agents. The oxidation potential of ozone is 2,07 V. This allows breaking down organic compounds which other oxidants can not oxidize. Deodorization: Organic compounds containing sulphur and nitrogen are major causes of odors. Small amounts of ozone in the range of 1-2 mg / l, added to water is able to oxidize these compounds. Parallel benefit of ozone deodorizing ability is that it prevents the recurrence of odors. Note that the gas flow is 95% of air so that aerobic conditions arising during treatment with ozone to prevent the formation of odors. Discoloration: The chronophers are generally organic polycyclic compounds with alternating simple and double bonds that can paint wastewater. Treatment with ozone breaks down by oxidation of the double bonds resulting in discoloured waterPDF created with pdfFactory Pro trial version www.pdffactory.com