OZONE GENERATORS

タイトルまたは説明

Ozone (O3), a colorless gas, is the tri-atomic form of oxygen; also know as “Super Oxygen”. It is a molecule consisting of three oxygen atoms . Ozone is formed naturally by the Ultra-Violet Rays of the sun (photochemical reaction) and by lightning (bio-electrical reaction). Ozone also formed synthetically by passing air or oxygen over a Ultra-Violet lamp (photochemical reaction). Some of the oxygen molecules split into two separate oxygen atoms. These single atoms then form semi-unstable bonds with the oxygen molecules . These oxygen molecules are highly reactive. This reactivity is because of the third atom of oxygen, also know as a “Hungry Atom”. This atom being very eager to break away from this semiunstable bond and react with any oxidizable compound (organic or inorganic). Also due to its reactivity, Ozone has a very short life span (about *0 min.).

Ozone, when introduced into the atmosphere in low levels is an excellent air purifier. Ozone in itself is an unstable three-part molecule of oxygen. When an ozone molecule contacts a pollutant, it attaches itself to it and changes its molecular structure in most cases to carbon dioxide and hydrogen. By destroying viruses, bacteria and other microbial contaminants, the source of the odours is eliminated and the odours does not return. Ozone destroys the contaminant molecule; it does not mask it as other methods do. Ozone treats all of the air, not just the air that is pulled into it as do the vast majority of electronic filters that are on the market today. Ozone residual will revert back to pure oxygen, making it environmentally friendly.

It often said that Hospitals are not the best place to be if you are ill”. As predominant aerobic bacteria, fungi and potential pathogenic organisms prevalent in the hospital environment. Often these germs and bacteria are bought into hospitals by the patients. So, no matter how careful a facility is about disinfecting surfaces, new germs and bacteria are introduced on a daily basis, often evolving beyond the effectiveness of current antibiotics. It is necessary for hospitals to have air Purification system

Source of Indoor Air Contaminants in Hospital
â–ª Patient.
â–ª The Surgical Team.
â–ª Equipments.
â–ª Infrastructure.

Concern Area
â–ª To reduce/eliminate the microbial contaminants.
â–ª Maintain very good Indoor Air Quality (IAQ).
â–ª Safety of Patient & Surgical Team

. Sterilization Application of Ozone Generator in Hospitals
• Operation Theater Sterilization.
• Operation Theater Fumigation.
• Disinfection for entire Hospital through AHU Ozonation.
• Disinfection for ICU & ICCU.
• Disinfection for Doctor’s Rooms.
• Cold Storages & Morgue.
• Disinfection of medicine & equipment sores.

Advantages of Ozone Sterilization in Hospitals
â–ª Ozone is a very powerful oxidant, sterilizes spaces very fast.
â–ª Advance technology for fumigation.
â–ª Ideal for OT, ICU, research centers, labs, Pharma, bio-medical etc.
â–ª Ozone is generated at site & can be on line.
â–ª Ozone is generated from ambient air, using electricity.
â–ª After treatment residual Ozone is transformed into harmless Oxygen.
â–ª No toxic or harmful by product generation.
â–ª Easy to retrofit in existing & new installations.
â–ª User friendly.

Advantages of Ozone used for Air Infection Control in Hospitals
• Ozone is a very powerful oxidant, sterilizes spaces very fast.
• Advance technology for fumigation.
• Ideal for OT, ICU, research centers, labs, Pharma, bio-medical etc.
• Ozone is generated at site & can be on line.
• Ozone is generated from ambient air, using electricity
. • After treatment residual Ozone is transformed into harmless Oxygen.
• No toxic or harmful by product generation.
• Easy to retrofit in existing & new installations.
• User friendly.
How Ozone can reduce Electricity Consumption & achieve Energy Efficiency in Hospitals:
AHU system takes “Outdoor/Fresh Air” to dilute Volatile Organic Compound (VOC) and reduce Carbon dioxide (CO2) within acceptable limits. Conventionally Fresh Air is used to improve Indoor Air Quality (IAQ).

Load profile of fresh air
» *0% to cool moisture … wasted energy
» *8% to cool nitrogen …..wasted energy
» *2% to cool oxygen …..the only useful component in fresh air

Solution to reduce the ” Fresh Air Intake”:
» By using controlled injection of ozone.
» Oxidation of VOC is performed by ozone and not by oxygen of the fresh air.
» Ozone is more powerful oxidizing agent than oxygen.
» In the presence of a more powerful oxidant, less powerful oxidant does not have the chance to perform oxidation, until no more of the former is available.
» Oxygen of the fresh air is preserved and not spent in performing the task of oxidizing the VOC, which is now transferred to ozone.
» Available oxygen is now used entirely to maintain CO2.
» Intake of fresh air is reduced drastically. Thus fresh air requirement goes down to 5CFM or less per person.

Ozone is 3 atoms of oxygen bound together instead of the normal 2. It is created artificially as the result of ultraviolet light acting on oxygen to break up and recombine as threesomes. Ozone destroys algae, viruses, bacteria, and fungi on contact and it breaks down harmful chemicals into simpler less damaging molecules. Ozone kills microorganisms by rupturing their cell walls. Healthy cells are not damaged because of their self protective mechanisms.

Ozone is Oxygen. We breath in O2 oxygen from the air around us. Ozone is O3, so it has an extra electron looking to pair itself. This unstable electron is what makes ozone a wonderful Cleanser. When we have a Lightening storm Ozone is created in the atmosphere and Hydrogen peroxide (H**2) is created in the water. They both will return O2 and H*0 and at the same time Cleanse the the earth.

1. Inactivation of bacteria, viruses, fungi, yeast and protozoa: 
Ozone disrupts the integrity of the bacterial cell envelope through oxidation of the phospholipids and lipoproteins. In fungi, ozone inhibits cell growth at certain stages. With viruses, the ozone damages the viral capsid and upsets the reproductive cycle by disrupting the virus-to-cell contact with peroxidation. The weak enzyme coatings on cells which make them vulnerable to invasion by viruses make them susceptible to oxidation and elimination from the body, which then replaces them with healthy cells.

2. Enhancement of circulation: 
In circulatory disease, a clumping of red blood cells hinders blood flow through the small capillaries and decreases oxygen absorption due to reduced surface area. Ozone reduces or eliminates clumping and red cell flexibility is restored, along with oxygen carrying ability. Oxygenation of the tissues increases as the arterial partial pressure increases and viscosity decreases. Ozone also oxidizes the plaque in arteries, allowing the removal of the breakdown products, unclogging the blood vessels..

3. Stimulation of oxygen metabolism: 
Ozone causes an increase in the red blood cell glycolysis rate. This leads to the stimulation of 2,*-diphosphoglycerate (2,*-DPG) which leads to an increase in the amount of oxygen released to the tissues. Ozone activates the Krebs cycle by enhancing oxidative carboxylation of pyruvate, stimulating production of ATP. Ozone also causes an increase in the NADH reducing process and helps to oxidize cytochrome C. There is a stimulation of the production of the enzymes which act as free radical scavengers and cell wall protectors: glutathione peroxidase, glutathione reductase, catalase, and superoxide dismutase. Production of prostacyclin, a platelet aggregation inhibitor, and a vasodilator, is also induced by ozone

4. Formation of peroxides: 
Ozone reacts with the unsaturated fatty acids of the lipid layer in cellular membranes, forming hydro peroxides. There is a synergistic effect with cellular-formed H2O2. Lipid peroxidation products include alkoxyl and peroxyl radicals, singlet oxygen, ozonides, carbonides, carbonyls, alkanes and alkenes.

5. Dissolution of malignant tumors: 
Ozone inhibits tumor metabolism. In addition, ozone oxidizes the outer lipid layer of malignant cells and destroys them through cell lysis (break-down). Phagocytes produce H2O2 and hydroxyl and ozone to kill bacteria and viruses. The generation of hydroxyl by killer cells is critical to their cytotoxic capability. Ozone stimulates conversion of arginine to citrulline, nitrite and nitrate by phagocytes, promoting their action on tumors.

6. Activation of the immune system:
Ozone administered at a concentration of between *5 and *5 ug/cc causes the greatest increase in the production of interferon and the greatest output of tumor necrosis factor (TNF) and interleukin 2. The production of interleukin 2 launches an entire cascade of subsequent immunological reactions.

The Cause of Disease 
The human body is 2/3 water. If toxins are allowed to build up in the system, the water gets ‘dirty’. If the blood pH varies up or down from 7.4, then the beneficial microbes that are necessary in the body begin to change their form, and disease results. To maintain a clean system, it is necessary to have a proper diet, one that produces a blood pH that is neither too alkaline (bacteria problems) or too acid (cancer problems). And it is necessary to have sufficient oxygen in the system to allow cellular respiration to be efficient and allow complete oxidation, preventing the production of carbon monoxide which the body cannot easily expel. Each cell burns sugar (carbohydrates) in oxygen to make its fuel ATP. The carbon-hydrogen bond is cleaved, and oxygen bonds with the hydrogen, forming water (H2O) and carbon dioxide (CO2). If there is insufficient oxygen available, carbon monoxide (CO) is formed instead, excessive lactic acid is formed and the blood is made more acid. If this oxygen deprivation (hypoxia) continues long enough, the cell will no longer be able to sustain the process of oxidation and it will be forced to ferment its sugar anerobically. This is the first critical step to the development of cancer.

Circulation of clean, oxygen-carrying blood is a basic requirement for optimum health, and this can be achieved by bringing ozone into the body. The least expensive way of doing that would be to live on a mountain far from the cities and breathe deeply — the recipe for an Eastern master. Failing that, we can use an ozone generator to create ozone from pure oxygen and bring that into the body in any one of a dozen ways in order to oxidize toxins and oxygenate the cells. Ozone works at the basic level of all the important bodily functions – respiration, digestion, assimilation, elimination and immunity. And this is the answer to the question of what we substitute for the worthless and dangerous vaccination programs.

A “radical” is an atom with an unbalanced electrical charge, and it will seek to steal electrons from other atoms – such as the atoms of our body cells! Our bodies need the help of “antioxidants” to neutralize the oxidation properties of those invading free radicals.

There are thousands of research papers that point to the production of free radicals as the primary cause of aging.

Free radicals are unstable molecules in the body created as part of the waste products or normal cellular metabolic activities. YOU ARE ONLY AS OLD AS YOUR CELLS! Recent research has given new hope to the task of rejuvenating and extending the lifespan of cells.
This cellular rejuvenation, life extension, and improved vitality has been achieved using special antioxidants that can actually keep cells looking and acting younger – and may even reverse the aging process !
The human body represents one of the most perfectly designed and coordinated structures. However, all these structures are held in position by a dense network of systems which constantly work together to keep us going.

 Free radicals are atoms with unpaired electrons, a natural occurrence in biochemical reactions. There could be no chemical reactions and thus no life without free radicals. The properties of free radicals vary widely. Some are toxic to all living cells, others only to the most vulnerable cells. Singlet oxygen,O1 is a highly reactive, beneficial free radical that acts as a scavenger of other harmful free radicals. The oxygen com