VITALO2 is an eco-friendly disinfectant, sterilizer, and deodorizer made from chlorine dioxide. Chlorine dioxide is approved as a safe disinfectant by various government agencies and has strong antibacterial and deodorizing properties. VITALO2 comes in different forms including VITALO2-F, a liquid form that is 99.99% effective against bacteria and viruses and removes odors through oxidation. Test reports and certificates show VITALO2 is non-toxic and effective as a disinfectant across various applications such as food processing, agriculture, livestock, and more.
CleanOxide 75 is a two-part system that produces a 0.75% chlorine dioxide solution when mixed, while sodium hypochlorite is a commercial solution of up to 15% available chlorine. Chlorine dioxide is a more powerful disinfectant than sodium hypochlorite, and CleanOxide 75 overcomes limitations of previous chlorine dioxide generation methods by providing a simple and efficient two-part system without complex equipment. CleanOxide 75 is also more selective against microorganisms, has less reaction with organic compounds to produce hazardous byproducts, and does not form chloramines like sodium hypochlorite.
This document summarizes various methods for remediating cyanide contamination. It discusses separation methods like physical separation using membranes or electrowinning. It also discusses destruction methods like oxidation which break the carbon-nitrogen triple bond in cyanide. Common oxidation methods mentioned are acidification/volatilization, which lowers the pH to release hydrogen cyanide gas, and metal addition processes like the Merrill-Crowe process which precipitate metals to remove cyanide from solution. The document provides examples of industrial cyanide remediation processes and compares their effectiveness at treating different cyanide species.
Chlorine Dioxide (ClO2) is an extremely effective, potent, fast acting biocide that does not form any toxic by-products and leaves no residual toxicity.
It is a broad spectrum biocide that is effective against aerobic, non-aerobic, gram positive & gram negative bacteria, viruses, moulds, fungi, algae, cyst, protozoa and spore formers such as Giardia and Cryptosporidium.
It is effective across wide pH band (2 to 12).
It also removes bio film and prevents bio film formation as long as it is in use thus keeping the total water distribution clean and sanitized.
Sodium nitrite is an inorganic compound used as a food additive to prevent botulism. It inhibits the growth of bacteria and gives taste and color to meat. While it prevents spoilage, sodium nitrite is also toxic in high amounts and has been linked to cancer due to the formation of nitrosamines when meat is cooked. It is regulated as a food additive and manufacturers must add antioxidants like vitamin C to inhibit nitrosamine production when curing meats.
This is chapter No 2 of Pharmaceutical Chemistry - I for Diploma in Pharmacy (D. Pharmacy)
Details notes for Diploma in Pharmacy (D.Pharmacy) Students.
This document discusses sources and types of impurities that may be present in pharmaceutical substances. It identifies several potential sources of impurities including raw materials, manufacturing methods, reaction vessels, atmospheric contamination, and errors in manufacturing or packaging processes. The document also categorizes types of impurities as organic impurities, inorganic impurities, or residual solvents. Organic impurities can arise from starting materials, byproducts, intermediates, or degradation products. Inorganic impurities may come from reagents, ligands, catalysts, metals or other materials. Residual solvents are organic or inorganic liquids used in manufacturing that can remain in the final product.
Impurities in pharmaceuticals are the unwanted chemicals that remain with the active pharmaceutical ingredients (APIs), or develop during formulation, or upon aging of both API and formulated APIs to medicines.
CleanOxide 75 is a two-part system that produces a 0.75% chlorine dioxide solution when mixed, while sodium hypochlorite is a commercial solution of up to 15% available chlorine. Chlorine dioxide is a more powerful disinfectant than sodium hypochlorite, and CleanOxide 75 overcomes limitations of previous chlorine dioxide generation methods by providing a simple and efficient two-part system without complex equipment. CleanOxide 75 is also more selective against microorganisms, has less reaction with organic compounds to produce hazardous byproducts, and does not form chloramines like sodium hypochlorite.
This document summarizes various methods for remediating cyanide contamination. It discusses separation methods like physical separation using membranes or electrowinning. It also discusses destruction methods like oxidation which break the carbon-nitrogen triple bond in cyanide. Common oxidation methods mentioned are acidification/volatilization, which lowers the pH to release hydrogen cyanide gas, and metal addition processes like the Merrill-Crowe process which precipitate metals to remove cyanide from solution. The document provides examples of industrial cyanide remediation processes and compares their effectiveness at treating different cyanide species.
Chlorine Dioxide (ClO2) is an extremely effective, potent, fast acting biocide that does not form any toxic by-products and leaves no residual toxicity.
It is a broad spectrum biocide that is effective against aerobic, non-aerobic, gram positive & gram negative bacteria, viruses, moulds, fungi, algae, cyst, protozoa and spore formers such as Giardia and Cryptosporidium.
It is effective across wide pH band (2 to 12).
It also removes bio film and prevents bio film formation as long as it is in use thus keeping the total water distribution clean and sanitized.
Sodium nitrite is an inorganic compound used as a food additive to prevent botulism. It inhibits the growth of bacteria and gives taste and color to meat. While it prevents spoilage, sodium nitrite is also toxic in high amounts and has been linked to cancer due to the formation of nitrosamines when meat is cooked. It is regulated as a food additive and manufacturers must add antioxidants like vitamin C to inhibit nitrosamine production when curing meats.
This is chapter No 2 of Pharmaceutical Chemistry - I for Diploma in Pharmacy (D. Pharmacy)
Details notes for Diploma in Pharmacy (D.Pharmacy) Students.
This document discusses sources and types of impurities that may be present in pharmaceutical substances. It identifies several potential sources of impurities including raw materials, manufacturing methods, reaction vessels, atmospheric contamination, and errors in manufacturing or packaging processes. The document also categorizes types of impurities as organic impurities, inorganic impurities, or residual solvents. Organic impurities can arise from starting materials, byproducts, intermediates, or degradation products. Inorganic impurities may come from reagents, ligands, catalysts, metals or other materials. Residual solvents are organic or inorganic liquids used in manufacturing that can remain in the final product.
Impurities in pharmaceuticals are the unwanted chemicals that remain with the active pharmaceutical ingredients (APIs), or develop during formulation, or upon aging of both API and formulated APIs to medicines.
Why is chlorine dioxide better than chlorine in treating waterGO2International
Although chlorine dioxide and chlorine are both oxidizing agents, ClO2 has a higher oxidation capacity making it at least 2.6 times more powerful per ppm.
Definition of Impurity
Types of Impurities
Sources of Impurity
foreign unwanted matter present in a compound which are differ from the actual molecular formula.
According to ICH “An impurity in a drug of the new drug substance that is not the substance”.
Chemically a compound is impure if it contains undesirable foreign matter i.e. impurities. Thus chemical purity is freedom from foreign matter
Impurities can have unwanted pharmacological or toxicological effect that seriously impact product quality and patient safety.
The International Conference on Harmonization (ICH) has formulated a workable guideline regarding the control of impurities.
Impurities in pharmaceutical are the unwanted chemicals that remains with the active pharmaceutical ingredient (API’s), or develop during formulation or upon aging of both API and formulated API’s to medicine.
The presence of the unwanted chemicals, even in small amount , may influence the efficacy and safety of pharmaceutical product
This document contains 76 multiple choice and short answer questions about various topics in food technology. Some of the key topics covered include definitions of food, nutrition, food processing techniques like canning and blanching, methods of food preservation, fermentation, and separation techniques used in food analysis.
This document discusses pharmaceutical impurities, which are unwanted chemicals that remain with active pharmaceutical ingredients or develop during formulation or aging. Impurities can come from raw materials, intermediates, reagents, catalysts, solvents, reaction vessels, improper storage, cross contamination, manufacturing errors, packaging errors, microbial contamination, chemical instability, storage containers, or atmospheric contamination. The presence of impurities can affect the efficacy, safety, and purity of pharmaceutical products. Common impurities include metals, microbes, residual solvents, and degradation products. Strict controls are needed in manufacturing to minimize impurities.
overview on hazardous wastes and its managementArvind Kumar
The document provides an overview of hazardous wastes and their management. It discusses several key points:
1) Hazardous waste generation has become an international problem as industrialization has increased, with developing countries like India facing growing challenges in disposal.
2) Several landmark pollution episodes involving chemicals like DDT, mercury, and PCBs highlighted the health and environmental risks of hazardous wastes.
3) Hazardous wastes are defined based on their potential to harm human health or the environment. India generates around 7 million tons annually, with most disposed in landfills.
4) Major industrial sources of hazardous wastes include chemicals, metals, and other sectors. Rules and regulations aim to ensure
CleanOxide 75 is a modern method of producing a pure (99%) solution of chlorine dioxide in water that is stable for over 30 days. It has many advantages over classical chlorine dioxide generation methods, which produce solutions that are only 65% pure and must be used immediately after generation. CleanOxide 75 does not require complex equipment, uses approved precursor solutions, and produces chlorine dioxide without free chlorine or other impurities. It is also not corrosive at recommended dosages.
Chlorine dioxide generated using CleanOxide overcomes problems with traditional generation methods by mixing two precursor solutions to produce chlorine dioxide without undesirable byproducts. Chlorine dioxide is an effective water disinfectant that remains effective over a wide pH range, does not form harmful byproducts, and can destroy biofilms that build up in water systems. CleanOxide 75 is a solution of chlorine dioxide that meets Australian guidelines and can be used to treat drinking water at rates that result in safe chlorite levels and reduce corrosion compared to other chlorine dioxide generation methods.
Heavy metal ions removal from wastewater using sodium alginateHifsaAfzal
Heavy metal ions removal from wastewater using sodium alginate, Removal of gold, silver, copper, palladium, lead, mercury, uranium, cadmium, copper and antimony
calcium alginate hydrogels
biodegradable adsorbents
Silver nitrate is a colorless or white crystalline solid that was discovered in the 13th century. It has a variety of industrial and medical uses. In medicine, it is used as an antiseptic, disinfectant, and to treat wounds and burns on the skin. It has also been used as an agent to remove warts and prevent blindness in newborns. Industrially, silver nitrate is used in processes like electroplating jewelry, coating mirrors, and manufacturing dyes, inks, explosives, and photographic emulsions. It must be handled with care due to its toxicity.
The document discusses various antimicrobial agents including hydrogen peroxide, potassium permanganate, boric acid, and iodine. It provides details on their preparation, chemical and physical properties, assays, and mechanisms of action. Hydrogen peroxide decomposes into water and oxygen and is prepared from barium peroxide. Potassium permanganate is a strong oxidizing agent prepared by heating potassium hydroxide with manganese dioxide. Boric acid is prepared from borax and used as an antiseptic. Iodine and its preparations are also briefly mentioned.
The word “cosmetics” comes from the Greek word kosmetikos meaning “skilled in adornment/decoration”. The way people wear makeup and the reasons why they wear it have changed dramatically over time and through different cultures.
CleanOxide 75 is a chlorine dioxide solution that can be used in the oil and gas industry to control sulphide levels, bacteria, and biofilms. It oxidizes sulphides to prevent plugging in wells. This improves oil quality and safety. CleanOxide 75 controls bacteria and biofilms better than alternatives like chlorine. It does not contribute to corrosion like other oxidizing biocides. CleanOxide 75 has a lower environmental impact than persistent or toxic alternatives as it breaks down quickly to inorganic compounds.
Internal protectives and adsorbents are inorganic pharmaceuticals used to treat mild diarrhea by coating the stomach and intestinal mucosa. Bismuth subcarbonate is a commonly used protective that is a white or pale yellow powder stored in light-resistant containers. Magnesium sulfate is an osmotic laxative used to treat constipation that is colorless needles soluble in water. Sodium potassium tartrate is also a saline cathartic that is white crystals or prisms with a cooling saline taste, used as a laxative or in effervescent powders.
This document summarizes research on treating wastewater from the cosmetics industry. It finds that cosmetic wastewater contains various organic and inorganic compounds that can be toxic, including surfactants, fragrances, and UV filters. The document reviews different treatment methods studied, finding the best results were achieved using catalytic oxidation which reduced COD by around 80%. The authors' own research found coagulation using FeCl3 at pH 6 and a flocculant reduced COD by 63.9%, while a Fenton process reduced it by 31.1-54.9%. Overall, pretreatment methods like coagulation and advanced oxidation processes can help remove contaminants before biological treatment.
CleanOxide Tablets are a superior water sanitization solution containing chlorine dioxide. The tablets are available in 4g and 20g sizes, treating up to 400L and 2000L respectively. They are effective over a broad pH range and do not produce toxic byproducts. Chlorine dioxide is approved for drinking water in Australia and is more effective than chlorine at lower doses without producing carcinogenic byproducts. The tablets can be used to treat various water sources including rain tanks, boats, pools, and spas.
Recovery of Azeotropic mixture of Hydrochloric Acid and WaterRhemAlhatimy
This document discusses the production of hydrochloric acid (HCl) from a HCl-water system. It begins with an introduction to HCl, including its physical and chemical properties. It then discusses how HCl is produced, focusing on its production from the HCl-water system. Key points include:
- HCl and water form an azeotropic mixture at 20.2% HCl that boils at 108.5°C.
- Above the azeotropic point, distillation cannot be used to further separate HCl and water due to the formation of the constant-boiling azeotrope.
- Various industrial processes can be used to separate the a
The document discusses safety procedures for chlorine manufacture and storage. It outlines several hazards of chlorine including its toxicity, corrosiveness, and ability to form explosive mixtures. It then describes key steps in chlorine production including electrolysis, cooling, drying, compression, and liquefaction. Safety procedures are outlined for each stage to prevent accidents and exposure to chlorine.
Nitric acid Preparation & Uses Raw materials, Flow sheet diagram unit operat...Sumama Shakir
Nitric acid and hydrochloric acid are strong acids with various industrial uses. Nitric acid is produced through the Ostwald process involving ammonia oxidation over a platinum catalyst. It is used to make explosives, fertilizers, and other chemicals. Proper storage of nitric and hydrochloric acids is important due to their corrosive nature and potential for dangerous reactions. They should be kept in acid-resistant containers in a well-ventilated chemical storage area.
The document discusses the production of caustic soda and chlorine through the electrolysis of salt water. There are three main electrolytic cell types used: mercury cell, diaphragm cell, and membrane cell. In the electrolysis process, salt water is purified and passed through the cells, where an electric current decomposes the brine into chlorine gas at the anode and sodium at the cathode. The sodium and chlorine then undergo further reactions to produce caustic soda and chlorine. The membrane cell process produces high quality caustic soda without contamination from salt, and operates at low voltage and energy efficiency.
The document discusses various methods of water disinfection and their limitations. It focuses on chlorine disinfection and outlines health and safety issues with chlorine such as formation of carcinogenic byproducts. A new product called DiamondOxide is introduced as a safer alternative, consisting of a pure chlorine dioxide solution that is a powerful disinfectant without harmful byproducts. It is effective at biofilm removal and killing all waterborne microorganisms. The document provides details on its use, dosage, effectiveness and advantages over traditional chlorine disinfection.
Chlorine dioxide is growing in popularity as a powerful effective tool to control microbiological growth in different industries including dairy, fruits and vegetables, poultry and beverages. Thus, in this informative post, we are going to discuss some of the key benefits of using chlorine dioxide for the food industry. Let's take a look at them.
Why is chlorine dioxide better than chlorine in treating waterGO2International
Although chlorine dioxide and chlorine are both oxidizing agents, ClO2 has a higher oxidation capacity making it at least 2.6 times more powerful per ppm.
Definition of Impurity
Types of Impurities
Sources of Impurity
foreign unwanted matter present in a compound which are differ from the actual molecular formula.
According to ICH “An impurity in a drug of the new drug substance that is not the substance”.
Chemically a compound is impure if it contains undesirable foreign matter i.e. impurities. Thus chemical purity is freedom from foreign matter
Impurities can have unwanted pharmacological or toxicological effect that seriously impact product quality and patient safety.
The International Conference on Harmonization (ICH) has formulated a workable guideline regarding the control of impurities.
Impurities in pharmaceutical are the unwanted chemicals that remains with the active pharmaceutical ingredient (API’s), or develop during formulation or upon aging of both API and formulated API’s to medicine.
The presence of the unwanted chemicals, even in small amount , may influence the efficacy and safety of pharmaceutical product
This document contains 76 multiple choice and short answer questions about various topics in food technology. Some of the key topics covered include definitions of food, nutrition, food processing techniques like canning and blanching, methods of food preservation, fermentation, and separation techniques used in food analysis.
This document discusses pharmaceutical impurities, which are unwanted chemicals that remain with active pharmaceutical ingredients or develop during formulation or aging. Impurities can come from raw materials, intermediates, reagents, catalysts, solvents, reaction vessels, improper storage, cross contamination, manufacturing errors, packaging errors, microbial contamination, chemical instability, storage containers, or atmospheric contamination. The presence of impurities can affect the efficacy, safety, and purity of pharmaceutical products. Common impurities include metals, microbes, residual solvents, and degradation products. Strict controls are needed in manufacturing to minimize impurities.
overview on hazardous wastes and its managementArvind Kumar
The document provides an overview of hazardous wastes and their management. It discusses several key points:
1) Hazardous waste generation has become an international problem as industrialization has increased, with developing countries like India facing growing challenges in disposal.
2) Several landmark pollution episodes involving chemicals like DDT, mercury, and PCBs highlighted the health and environmental risks of hazardous wastes.
3) Hazardous wastes are defined based on their potential to harm human health or the environment. India generates around 7 million tons annually, with most disposed in landfills.
4) Major industrial sources of hazardous wastes include chemicals, metals, and other sectors. Rules and regulations aim to ensure
CleanOxide 75 is a modern method of producing a pure (99%) solution of chlorine dioxide in water that is stable for over 30 days. It has many advantages over classical chlorine dioxide generation methods, which produce solutions that are only 65% pure and must be used immediately after generation. CleanOxide 75 does not require complex equipment, uses approved precursor solutions, and produces chlorine dioxide without free chlorine or other impurities. It is also not corrosive at recommended dosages.
Chlorine dioxide generated using CleanOxide overcomes problems with traditional generation methods by mixing two precursor solutions to produce chlorine dioxide without undesirable byproducts. Chlorine dioxide is an effective water disinfectant that remains effective over a wide pH range, does not form harmful byproducts, and can destroy biofilms that build up in water systems. CleanOxide 75 is a solution of chlorine dioxide that meets Australian guidelines and can be used to treat drinking water at rates that result in safe chlorite levels and reduce corrosion compared to other chlorine dioxide generation methods.
Heavy metal ions removal from wastewater using sodium alginateHifsaAfzal
Heavy metal ions removal from wastewater using sodium alginate, Removal of gold, silver, copper, palladium, lead, mercury, uranium, cadmium, copper and antimony
calcium alginate hydrogels
biodegradable adsorbents
Silver nitrate is a colorless or white crystalline solid that was discovered in the 13th century. It has a variety of industrial and medical uses. In medicine, it is used as an antiseptic, disinfectant, and to treat wounds and burns on the skin. It has also been used as an agent to remove warts and prevent blindness in newborns. Industrially, silver nitrate is used in processes like electroplating jewelry, coating mirrors, and manufacturing dyes, inks, explosives, and photographic emulsions. It must be handled with care due to its toxicity.
The document discusses various antimicrobial agents including hydrogen peroxide, potassium permanganate, boric acid, and iodine. It provides details on their preparation, chemical and physical properties, assays, and mechanisms of action. Hydrogen peroxide decomposes into water and oxygen and is prepared from barium peroxide. Potassium permanganate is a strong oxidizing agent prepared by heating potassium hydroxide with manganese dioxide. Boric acid is prepared from borax and used as an antiseptic. Iodine and its preparations are also briefly mentioned.
The word “cosmetics” comes from the Greek word kosmetikos meaning “skilled in adornment/decoration”. The way people wear makeup and the reasons why they wear it have changed dramatically over time and through different cultures.
CleanOxide 75 is a chlorine dioxide solution that can be used in the oil and gas industry to control sulphide levels, bacteria, and biofilms. It oxidizes sulphides to prevent plugging in wells. This improves oil quality and safety. CleanOxide 75 controls bacteria and biofilms better than alternatives like chlorine. It does not contribute to corrosion like other oxidizing biocides. CleanOxide 75 has a lower environmental impact than persistent or toxic alternatives as it breaks down quickly to inorganic compounds.
Internal protectives and adsorbents are inorganic pharmaceuticals used to treat mild diarrhea by coating the stomach and intestinal mucosa. Bismuth subcarbonate is a commonly used protective that is a white or pale yellow powder stored in light-resistant containers. Magnesium sulfate is an osmotic laxative used to treat constipation that is colorless needles soluble in water. Sodium potassium tartrate is also a saline cathartic that is white crystals or prisms with a cooling saline taste, used as a laxative or in effervescent powders.
This document summarizes research on treating wastewater from the cosmetics industry. It finds that cosmetic wastewater contains various organic and inorganic compounds that can be toxic, including surfactants, fragrances, and UV filters. The document reviews different treatment methods studied, finding the best results were achieved using catalytic oxidation which reduced COD by around 80%. The authors' own research found coagulation using FeCl3 at pH 6 and a flocculant reduced COD by 63.9%, while a Fenton process reduced it by 31.1-54.9%. Overall, pretreatment methods like coagulation and advanced oxidation processes can help remove contaminants before biological treatment.
CleanOxide Tablets are a superior water sanitization solution containing chlorine dioxide. The tablets are available in 4g and 20g sizes, treating up to 400L and 2000L respectively. They are effective over a broad pH range and do not produce toxic byproducts. Chlorine dioxide is approved for drinking water in Australia and is more effective than chlorine at lower doses without producing carcinogenic byproducts. The tablets can be used to treat various water sources including rain tanks, boats, pools, and spas.
Recovery of Azeotropic mixture of Hydrochloric Acid and WaterRhemAlhatimy
This document discusses the production of hydrochloric acid (HCl) from a HCl-water system. It begins with an introduction to HCl, including its physical and chemical properties. It then discusses how HCl is produced, focusing on its production from the HCl-water system. Key points include:
- HCl and water form an azeotropic mixture at 20.2% HCl that boils at 108.5°C.
- Above the azeotropic point, distillation cannot be used to further separate HCl and water due to the formation of the constant-boiling azeotrope.
- Various industrial processes can be used to separate the a
The document discusses safety procedures for chlorine manufacture and storage. It outlines several hazards of chlorine including its toxicity, corrosiveness, and ability to form explosive mixtures. It then describes key steps in chlorine production including electrolysis, cooling, drying, compression, and liquefaction. Safety procedures are outlined for each stage to prevent accidents and exposure to chlorine.
Nitric acid Preparation & Uses Raw materials, Flow sheet diagram unit operat...Sumama Shakir
Nitric acid and hydrochloric acid are strong acids with various industrial uses. Nitric acid is produced through the Ostwald process involving ammonia oxidation over a platinum catalyst. It is used to make explosives, fertilizers, and other chemicals. Proper storage of nitric and hydrochloric acids is important due to their corrosive nature and potential for dangerous reactions. They should be kept in acid-resistant containers in a well-ventilated chemical storage area.
The document discusses the production of caustic soda and chlorine through the electrolysis of salt water. There are three main electrolytic cell types used: mercury cell, diaphragm cell, and membrane cell. In the electrolysis process, salt water is purified and passed through the cells, where an electric current decomposes the brine into chlorine gas at the anode and sodium at the cathode. The sodium and chlorine then undergo further reactions to produce caustic soda and chlorine. The membrane cell process produces high quality caustic soda without contamination from salt, and operates at low voltage and energy efficiency.
The document discusses various methods of water disinfection and their limitations. It focuses on chlorine disinfection and outlines health and safety issues with chlorine such as formation of carcinogenic byproducts. A new product called DiamondOxide is introduced as a safer alternative, consisting of a pure chlorine dioxide solution that is a powerful disinfectant without harmful byproducts. It is effective at biofilm removal and killing all waterborne microorganisms. The document provides details on its use, dosage, effectiveness and advantages over traditional chlorine disinfection.
Chlorine dioxide is growing in popularity as a powerful effective tool to control microbiological growth in different industries including dairy, fruits and vegetables, poultry and beverages. Thus, in this informative post, we are going to discuss some of the key benefits of using chlorine dioxide for the food industry. Let's take a look at them.
Carbon tetrachloride is a manufactured chemical that does not occur naturally. It is commonly found as a colorless gas and liquid with a sweet aroma. Exposure can occur through breathing contaminated air or drinking water near manufacturing plants or waste sites. Chronic exposure to carbon tetrachloride may result in toxicity to the liver and it is suspected to be carcinogenic. Lawsuits have been filed against companies for contamination from carbon tetrachloride leaks at industrial sites like the Rocky Flats Plant in the US.
1. Over 1.6 billion people lack access to clean water, resulting in 30,000 dysentery deaths per week, mostly children. Chlorine dioxide is a safer alternative to chlorine for disinfection that does not form carcinogenic byproducts.
2. VERSANTM provides chlorine dioxide disinfection for small-scale water treatment without energy. Packets generate chlorine dioxide to treat various water volumes. It can be used in emergencies, remote areas, and developing communities for drinking water.
3. An action plan is needed to register VERSANTM with the EPA, manufacture it, and establish strategic alliances to market it for humanitarian uses through organizations focused on global health, aid
Greg Boyle Odorscience Denver water purificationOdor Science
1. Over 1.6 billion people lack access to clean water, resulting in 30,000 dysentery deaths per week, mostly children. Chlorine dioxide is a safer alternative to chlorine for disinfection that does not form carcinogenic byproducts.
2. VERSANTM provides chlorine dioxide disinfection for small-scale water treatment without energy. Packets generate chlorine dioxide to treat various water volumes. It can be used in emergencies, remote areas, and developing communities for drinking water.
3. An action plan is needed to register VERSANTM with the EPA, manufacture it, and establish strategic alliances to market it for humanitarian uses through organizations focused on global health, aid
Crystal Clear dry cleaning uses 100% organic solvents that are safe, clean, and prevent water pollution. They have replaced harmful chemicals with environmentally friendly cleaning solvents. Customers can enjoy eco-friendly dry cleaning services that are beneficial for the environment.
Silver Hydrogen Peroxide, an eco-friendly disinfectant, with a variety of uses. It breaks down into water and oxygen after work. Oxidizing in nature, and silver provides extra benefit of long lasting disinfection.
Used for disinfection of soil, dairy, water, etc.
Compatible with most materials and can be used in any media.
Carbon tetrachloride is a clear, sweet-smelling liquid that is commonly used as a degreasing agent, in fire extinguishers, and as a refrigerant. It is not flammable but produces flammable gases when heated. Chronic exposure can damage the central nervous system and liver and has been shown to cause tumors in mice. A major case study discussed involved extensive contamination at the Rocky Flats nuclear weapons plant in Colorado from carbon tetrachloride and plutonium waste, resulting in large legal settlements against responsible companies. Proper handling and storage is needed to reduce risks from exposure.
OraCare is an activated oral cleanser and health rinse containing activated chlorine dioxide, which has been shown to kill a wide range of bacteria, viruses, fungi, and toxins. It is more effective than other mouthwashes at eliminating harmful microbes and volatile sulfur compounds that cause bad breath. Studies have demonstrated OraCare's exceptional ability to destroy dental biofilm layers and regulate inflammatory cytokines. As the only product that can effectively eliminate all major causes of oral diseases, OraCare has potential benefits for oral health maintenance and rising the standard of dental care through its use as a pre-rinse prior to procedures. Its prescription-only status, positioning as a product for dentists, and profit-sharing model provide
This document provides an overview of various environmental factors that impact health, with a focus on water. It defines key terms like environment and health. It describes different classifications of the environment and various water sources. It discusses water pollution, purification methods like chlorination and ozonation, and standards for drinking water quality. It also addresses issues like waterborne diseases, water hardness, air quality, and factors like noise, ventilation and housing that relate to environmental health.
The chlorine dioxide market is witnessing substantial growth driven by its widespread applications across various industries. As a versatile disinfectant and bleaching agent, chlorine dioxide finds use in water treatment, pulp and paper manufacturing, healthcare, and more. This short description explores key trends, market dynamics, and growth prospects, shedding light on the evolving landscape of this essential chemical compound.
Dioxins are toxic, chlorinated chemicals that persist in the environment for long periods. They accumulate in the food chain and enter the human body primarily through consumption of animal products like meat and dairy. Major sources of dioxin contamination include waste incineration, industrial processes, and natural events like forest fires. Exposure to dioxins is linked to increased risks of cancer, skin conditions, diabetes, and damage to the immune system. Recommendations to reduce dioxin intake focus on choosing low-fat animal products and increasing consumption of plant-based foods.
GO2 International provides the state-of-the-art in chlorine dioxide generation. It's safe to use, easy on the environment (it's a "green" chemistry) and offers maximum disinfection power yet with minimal costs.
The document discusses hydromagnetic conditioning systems that use magnetic fields to prevent scale buildup in pipes and equipment. It explains that most scale-causing substances are diamagnetic, meaning they do not have a permanent magnetic moment and can lose their polarity over time. When this happens, the substances clump together and form scale. However, exposing diamagnetic substances to a magnetic field causes them to regain their magnetism through induced polarization. This prevents the substances from clustering together and forming scale, keeping them suspended in fluid systems instead. Hydromagnetic conditioning systems provide optimized magnetic energy to induce this polarization and prevent both new and existing scale buildup.
This document discusses the uses and safety measures for chlorine in production and use. It outlines how chlorine is used widely as a disinfectant in water purification and in the production of plastics, polymers, solvents, and pharmaceuticals. Safety measures for handling chlorine gas include training personnel, using protective equipment, and ensuring adequate ventilation. The document also notes some disadvantages of chlorine like the formation of disinfection byproducts and hazards associated with chlorine gas.
Hazardous Waste Management & Its Legal Requirement in IndiaNikesh Banwade
The Presentation Brief about the
Hazardous Waste,
Hazardous Waste Storage,
Hazardous Waste management,
Hazardous waste management Rule 2016,
Its legal requirement,
Hazardous waste generated at home & in Cement Manufacturing Industries.
Other Waste
2018
Manifest system
Transportation
Cement Manufacturing
AFR
Alternative Fuel and Raw Material
Cement Kiln
This material safety data sheet provides information on Afrox Pickling Paste, which contains approximately 20% nitric acid and 5% hydrofluoric acid. It is corrosive and toxic, and can cause severe burns to the eyes, skin, and respiratory system if contact occurs. Proper personal protective equipment should be worn when handling, including gloves, goggles and respiratory protection. Any spills should be neutralized with lime and cleaned up according to regulatory guidelines.
This document provides information on BiODX, an industrial biotech company that develops sustainable biocides. BiODX has over 6 years of R&D experience with CSIR and has developed DECONT-X, a mild organic biocide made from citrus extracts. DECONT-X is non-toxic, non-corrosive, and effective against bacteria and molds. The document outlines BiODX's technology, regulatory compliance, product performance and advantages over conventional chemicals. It shows that DECONT-X controls bacteria in cooling tower water better than chlorine and that bacteria do not develop resistance to it.
Similar to VitalO2 : Disinfectant, Deodorizer, Sterilizer Agent (20)
Evolving Lifecycles with High Resolution Site Characterization (HRSC) and 3-D...Joshua Orris
The incorporation of a 3DCSM and completion of HRSC provided a tool for enhanced, data-driven, decisions to support a change in remediation closure strategies. Currently, an approved pilot study has been obtained to shut-down the remediation systems (ISCO, P&T) and conduct a hydraulic study under non-pumping conditions. A separate micro-biological bench scale treatability study was competed that yielded positive results for an emerging innovative technology. As a result, a field pilot study has commenced with results expected in nine-twelve months. With the results of the hydraulic study, field pilot studies and an updated risk assessment leading site monitoring optimization cost lifecycle savings upwards of $15MM towards an alternatively evolved best available technology remediation closure strategy.
Improving the viability of probiotics by encapsulation methods for developmen...Open Access Research Paper
The popularity of functional foods among scientists and common people has been increasing day by day. Awareness and modernization make the consumer think better regarding food and nutrition. Now a day’s individual knows very well about the relation between food consumption and disease prevalence. Humans have a diversity of microbes in the gut that together form the gut microflora. Probiotics are the health-promoting live microbial cells improve host health through gut and brain connection and fighting against harmful bacteria. Bifidobacterium and Lactobacillus are the two bacterial genera which are considered to be probiotic. These good bacteria are facing challenges of viability. There are so many factors such as sensitivity to heat, pH, acidity, osmotic effect, mechanical shear, chemical components, freezing and storage time as well which affects the viability of probiotics in the dairy food matrix as well as in the gut. Multiple efforts have been done in the past and ongoing in present for these beneficial microbial population stability until their destination in the gut. One of a useful technique known as microencapsulation makes the probiotic effective in the diversified conditions and maintain these microbe’s community to the optimum level for achieving targeted benefits. Dairy products are found to be an ideal vehicle for probiotic incorporation. It has been seen that the encapsulated microbial cells show higher viability than the free cells in different processing and storage conditions as well as against bile salts in the gut. They make the food functional when incorporated, without affecting the product sensory characteristics.
Presented by The Global Peatlands Assessment: Mapping, Policy, and Action at GLF Peatlands 2024 - The Global Peatlands Assessment: Mapping, Policy, and Action
Kinetic studies on malachite green dye adsorption from aqueous solutions by A...Open Access Research Paper
Water polluted by dyestuffs compounds is a global threat to health and the environment; accordingly, we prepared a green novel sorbent chemical and Physical system from an algae, chitosan and chitosan nanoparticle and impregnated with algae with chitosan nanocomposite for the sorption of Malachite green dye from water. The algae with chitosan nanocomposite by a simple method and used as a recyclable and effective adsorbent for the removal of malachite green dye from aqueous solutions. Algae, chitosan, chitosan nanoparticle and algae with chitosan nanocomposite were characterized using different physicochemical methods. The functional groups and chemical compounds found in algae, chitosan, chitosan algae, chitosan nanoparticle, and chitosan nanoparticle with algae were identified using FTIR, SEM, and TGADTA/DTG techniques. The optimal adsorption conditions, different dosages, pH and Temperature the amount of algae with chitosan nanocomposite were determined. At optimized conditions and the batch equilibrium studies more than 99% of the dye was removed. The adsorption process data matched well kinetics showed that the reaction order for dye varied with pseudo-first order and pseudo-second order. Furthermore, the maximum adsorption capacity of the algae with chitosan nanocomposite toward malachite green dye reached as high as 15.5mg/g, respectively. Finally, multiple times reusing of algae with chitosan nanocomposite and removing dye from a real wastewater has made it a promising and attractive option for further practical applications.
Epcon is One of the World's leading Manufacturing Companies.EpconLP
Epcon is One of the World's leading Manufacturing Companies. With over 4000 installations worldwide, EPCON has been pioneering new techniques since 1977 that have become industry standards now. Founded in 1977, Epcon has grown from a one-man operation to a global leader in developing and manufacturing innovative air pollution control technology and industrial heating equipment.
Climate Change All over the World .pptxsairaanwer024
Climate change refers to significant and lasting changes in the average weather patterns over periods ranging from decades to millions of years. It encompasses both global warming driven by human emissions of greenhouse gases and the resulting large-scale shifts in weather patterns. While climate change is a natural phenomenon, human activities, particularly since the Industrial Revolution, have accelerated its pace and intensity
ENVIRONMENT~ Renewable Energy Sources and their future prospects.tiwarimanvi3129
This presentation is for us to know that how our Environment need Attention for protection of our natural resources which are depleted day by day that's why we need to take time and shift our attention to renewable energy sources instead of non-renewable sources which are better and Eco-friendly for our environment. these renewable energy sources are so helpful for our planet and for every living organism which depends on environment.
Optimizing Post Remediation Groundwater Performance with Enhanced Microbiolog...Joshua Orris
Results of geophysics and pneumatic injection pilot tests during 2003 – 2007 yielded significant positive results for injection delivery design and contaminant mass treatment, resulting in permanent shut-down of an existing groundwater Pump & Treat system.
Accessible source areas were subsequently removed (2011) by soil excavation and treated with the placement of Emulsified Vegetable Oil EVO and zero-valent iron ZVI to accelerate treatment of impacted groundwater in overburden and weathered fractured bedrock. Post pilot test and post remediation groundwater monitoring has included analyses of CVOCs, organic fatty acids, dissolved gases and QuantArray® -Chlor to quantify key microorganisms (e.g., Dehalococcoides, Dehalobacter, etc.) and functional genes (e.g., vinyl chloride reductase, methane monooxygenase, etc.) to assess potential for reductive dechlorination and aerobic cometabolism of CVOCs.
In 2022, the first commercial application of MetaArray™ was performed at the site. MetaArray™ utilizes statistical analysis, such as principal component analysis and multivariate analysis to provide evidence that reductive dechlorination is active or even that it is slowing. This creates actionable data allowing users to save money by making important site management decisions earlier.
The results of the MetaArray™ analysis’ support vector machine (SVM) identified groundwater monitoring wells with a 80% confidence that were characterized as either Limited for Reductive Decholorination or had a High Reductive Reduction Dechlorination potential. The results of MetaArray™ will be used to further optimize the site’s post remediation monitoring program for monitored natural attenuation.
2. ECO-FRIENDLY DISINFECTANT, STERILIZER AND DEODORIZER AGENT
Main component of VITALO2 is “Chlorine Dioxide”, which is certificates as the most safe disi
nfectant degree “A1”. Chlorine Dioxide is already widely used in the area of water treatmen
t in USA, EU, and Japan.
» 99.99% Antibacterial
» Non-Toxic
» Non-Alcohol
» Non-Antiseptic
We continue to strive to make the world
an even cleaner, safer, healthier place
—Everywhere It Matters.
TABLE OF CONTENTS
1. Company Overview
2. Introduction of Chlorine dioxide
3. Overview of VITALO2 product
4. Detailed Introduction of VITALO2
4-1. VITALO2-F
4-2. VITALO2-A
5. TV Media and Video
6. Certificate in English
3. COMPANY OVERVIEW
Main
B u s i n e s s
VITALO2 Co., Ltd
Cha, Chun Yeol
2014. 03. 19
+82-2-402-9400
www.vitalo2.co.kr
Pure Chlorine Dioxide
Disinfectant
Sterilizer
Deodorizer
Water Treatment Agent etc.
Distributor by
President
Establishment
Contact
Email
Homepage
PUBLICO Co., Ltd
Kim, Kyung Hoon
2012. 07. 03
+82-10-8811-3742
Publico.eric@gmail.com
http://vitalo2.blogspot.com/
Manufacture by
President
Establishment
Contact
Homepage
Main
B u s i n e s s
Export & Import
Wholesale
International Distributor
International Market Research
Everywhere It Matters
4. COMPANY OVERVIEW-Registration and Permit
Safe for you and your family 1
Environmental Label CertificateVenture Business Confirmation Disinfection License
Everywhere It Matters
5. COMPANY OVERVIEW-Registration and Permit
Factory Registration CertificateRegistration of Food
Additive Manufacture
Confirm Safety Report
Everywhere It Matters
8. INTRODUCTION OF CLRORINE DIOXIDE(CLO2)
2 SUSTAINABILITy REPORT 2010
┃What is “Chlorine Dioxide(ClO2)”┃
Chlorine dioxide has been described as the “ideal” biocide. Recent innovations in safe and efficient
delivery mechanisms have allowed chlorine dioxide to be applied to a wide variety of applications. It’s
now included in many drinking water hygiene programs around the globe. Complete testing has
confirmed the safety of chlorine dioxide. This includes extensive studies by the Environmental Protection
Agency (EPA) and World Health Organization (WHO).
Chlorine dioxide is very effective in killing pathogens such as fungi, bacteria and viruses. It’s a very
selective
oxidant and reacts mainly with organic substances.
Chlorine Dioxide is approved as an environmentally friendly and stable disinfectant from each
country’s government which is classified as a most safe food additives (level A-1) from WHO.
Everywhere It Matters
9. INTRODUCTION OF CLRORINE DIOXIDE(CLO2)
┃Feature of Chlorine Dioxide(ClO2) – Point of Excelence ┃
Chlorine Dioxide
ClO2 destroys the cell membrane of
bacteria and penetrate the biomass
Removes
Bio-Film
Selectivity
Sustainability
Non Toxic
ClO2 : No reaction with unsaturated fatty
acid
Removes the malodor by the reaction
with H2S, mercaptans and
phenols.(Oxidation
or structure destruction)
Chlorine produces the carcinogenic
DBP(Disinfection By-Product) such as
THMs, HAAs, HANs.
ClO2 : No production of DBP
ClO2 decomposed to chlorite or
chlorate which are not toxic
ClO2 reacts only with the material
to be disinfected
- Disinfection Efficacy 2.5 ~ 5 time
better than Chlorine
- Broad spectrum with full range of pH
Chlorine : Bacteria recovers after
disinfection Chlorine Dioxide :
No recovery of bacteria
Eco-Friendly
Reactivity &
Sterilizing
Power
Removes
Organic &
Norganic
Compounds
Everywhere It Matters
10. INTRODUCTION OF CLRORINE DIOXIDE(CLO2)
┃Comparison of Disinfection Methods┃
Point Ozone UV Chlorine Chlorine Dioxide
Preservation time minutes - hours days
Raw Material of
Production Air, O2, electricity electricity
Chlorine gas,
hypochlorite
electrolysis
Chlorine dioxide ion
+ distilled water
Sterilizing Efficacy
(Oxidation Power)
Powerful instant
Sterilization
Much influenced by
color/turbidity moderate
6 times better than
chlorine
Removal of protozoan no no weak Very good
Removal of malodor no very weak no Very good
Removal of Iron,
Manganese, Phenol
no no no
Very good
Range of pH 6.5~7.5 - 6.5~7.5 2~10
Removal of Color good no weak good
Corrosion Very much no yes No
Disinfection By-
Product
Refers to the next Page
Removal of Ammonia no no no good
Reduction of Dioxin no no no good
Everywhere It Matters
11. INTRODUCTION OF CLRORINE DIOXIDE(CLO2)
•Non Toxic
- Chlorine dioxide decomposed to form chlorite and chlorate which disappears immediately, Therefore, chlorine
dioxide is a non-toxic disinfectant
▶ According to animal studies, chlorine dioxide is not harmful under the concentration of 100ppm
(IPCS, International on Chemical Safety, 2002)
·Chlorite : No tumor evolution after 85 week treatment of 300~600ppm concentration(Rat)
·Chlorate : No tumor or cancer evolution at dogs and rats
- As chlorine dioxide does not react with ammonia, it does not produce the toxic chloramine.
- No production of carcinogenic halogenated organic compounds such as chloroform.
- No production of bromate, which comes from ozone treatment
Disinfectant Organohalogen Inorganic
compound
Non-Organohalogen
Chlorine, hypochlorite
• trihalomethanes
• haloacetic acid
• haloacetonitrile
• chloral
• chloropicnylchlorophenol
• N-chloramine
• bromohydrine •chlorate
•aldehyde
•cyanocarboxylic acid
•alcanoic acid
•benzene
•carboxylic acid
Chlorine Dioxide • No production • chlorite • chlorate •No production
Chloramins
• haloacetonitrile
• cyanogen
• organic chloramin
• chloramino acid
• chloralhydrate
• haloketone
•nitrate
•nitrite
•chlorate
•hydrazine
•aldehyde
•ketone
Ozone
•bromoform
•monobromoacetic acid
•dibromoacetic acid
•dibromoacetone
•cyanogenbromo
• chlorate
• iodate
• bromate
• peroxide
• hypobromicacid
• epoxy
• ozonate
•aldehyde
•ketonic acid
•ketone
•carboylic acid
┃Point of Excelence - Detail┃
Everywhere It Matters
12. INTRODUCTION OF CLRORINE DIOXIDE(CLO2)
┃Comparison with other Disinfectants┃
Disinfection Treatment of E.Coli
a.Control
Conservation of membrane and cytoplasma
b.Chlorine
Membrane : intact Cytoplasma : partial
damaged
c.Ozone
Membrane : damaged Cytoplasma : intact
d.Chlorine Dioxide
Membrane : severe damaged(right side)
Cytoplasma : total damaged
e.UV
Membrane and Cytoplasma partial damaged or
intact
Everywhere It Matters
13. INTRODUCTION OF CLRORINE DIOXIDE(CLO2)
ㆍ Classification of environment-friendly disinfection, disinfection and deodorant classification → classified
as highest grade A-1 (1999)
ㆍCAS No. : 10049-04-4
ㆍHazard Exposure(Fire, Explosion) and Human Exposure(Inhalation/Skin/Eyes/Ingestion) evaluate
ㆍ Registered ClO2 Dissolved Water as a disinfectant and Sterilizer (1968)
ㆍ Registered ClO2 gas as disinfectant & sterilizer(1988)
ㆍ Registered ClO2 as disinfectant and sterilizer for drinking water (1988)
ㆍ Registered ClO2 as a food additive (1988)
ㆍ Permission to use CLO2 Dissolved Water for Red Meat-related products (2004)
ㆍ Permission to use ClO2 Dissolved Water for red meat processing, canning, seafood, ice and processing related
equipment (2007)
ㆍ Accepted disinfectant for drinking water by Ministry of Environment (1999)
ㆍ Ministry of Environment, Water Treatment Facilities Installation Guideline, ClO2 as the most economical (2002)
ㆍ KFDA Permission of disinfection of foods such as fruits / vegetables (2007)
ㆍ Ministry of Agriculture, Forestry and Fisheries, Food Industry Promotion Act No. 9759, Licensed as a processing
aid for organic agricultural products (2008)
ㆍ KFDA Permitted as sanitary management material for seafood such as sushi aquarium (2009)
ㆍ National Veterinary Research and Quarantine Service approved for surface treatment of livestock meat (2010)
World Health
Organization
EPA
FDA
EU
KFDA
KME
MAFRA
ㆍ EU Executive Committee: Classifying ClO2 as Drinking Water 2 (2006)
ㆍ Northern Ireland and Ireland: accepted as food additives
ㆍ France Environment Agency: Permission to use chlorine dioxide as disinfectant and sterilizer t
┃Chlorine Dioxide - Certifications┃
Everywhere It Matters
14. OVERVIEW OF VITALO2
┃Application Areas of VitalO2┃
Agriculture
& Horticulture
• Food Industry
• Export & Delivery
• Food processing
• Fruit & Vegetable Washing
• Organic food, golf course
• Prevent spoilage
• Extend freshness
• Remove pesticide & odor
• Increasing crop yield
• Prevent diseases
• Disinfect Facility and equipment
Household
Item, Medical
Livestock &
Poultry
Water
Treatment
• Animal feed disinfectant
• Quarantine disinfectant
• Deodorant, Beekeeping disinfectant
• Fish & Shrimp farm, Aquarium
• Sea water distribution
• Strengthen immunity
• Disease prevention treatment,
• Fish and Shrim larval rearing,
• Treatment of diseases,
• Deodorize all smell
• Disinfectant & Deodorant
• Household item
(toilet, blanket, towel, bed etc.)
• Personal item(shoes, clothes etc.)
• Disinfectant Pharmaceuticals
• Medical Equipment
• Funeral Equipment
• Tableware & Kitchenware
• Dining facility & Restaurant
• Public area(mall, resort, park, KTV etc.)
• Governmental space
(police station, fire station etc.)
• Kindergarten, school & university
• Municipal Water, Sewage
• Water Purification
• Red tide, Green algae
• Waste water treatment
• Pipeline, Storage facility
• Resort, Park, Water-park,
• Swimming pool
• Ship, Cooling water treatment
• Vehicles & Air craft
• Ice factory
• Drink water
“VitalO2 is applicable to almost all the areas of Disinfection, Sterilization & Deodorization”
Aquaculture
Food
Processing
Space &
Facility
Transportation
Everywhere It Matters
16. OVERVIEW OF VITALO2
┃The Killing Power of VitalO2┃
Measured Performance Time Reduction
Everywhere It Matters
17. OVERVIEW OF VITALO2
┃Deodorization Power of VitalO2┃
Removal the malodor compounds such as H2S, mercaptans, phenols and ammonia by oxidation or
structural destruction
[Korea Conformity Laboratories]
items
Time
(min)
BLANK
(ppm)
Concentration
(ppm)
Deodorization
efficacy (%) Standard
procedure
H2S
Removal
Start 50 50 0
KS I 2218:2008
30 50 3 94
60 49 2 96
90 48 1 98
120 47 1 98
Methyl
Mercaptan
Removal
Start 50 50 0
30 50 3 94
60 48 2 96
90 48 1 96
120 47 1 98
Ammonia
Removal
Start 50 50 0
KS I 2218:2008
30 49 3 93.3
60 49 3 93.3
90 49 3 93.3
120 48 2 95.8
Everywhere It Matters
18. OVERVIEW OF VITALO2-Certificate and Test Report
VitalO2-A MSDS VitalO2-F MSDS VitalO2-M MSDS
┃Material Safety Data Sheet of VitalO2┃
Everywhere It Matters
19. OVERVIEW OF VITALO2-Certificate and Test Report
VitalO2-A KCL Test VitalO2-F KTR Test VitalO2-M KTR Test
┃KTR(Korea Testing & Research Institute) & KCL(Korea Conformity Laboratory) of VitalO2┃
Everywhere It Matters
20. OVERVIEW OF VITALO2-Certificate and Test Report
Antimicrobial Test Report
┃KTR(Korea Testing & Research Institute) Antimicrobial Test Report┃
Everywhere It Matters
21. OVERVIEW OF VITALO2-Certificate and Test Report
Single Transdermal Test Report
┃KTR(Korea Testing & Research Institute) Single Transdermal Test Report┃
Everywhere It Matters
22. OVERVIEW OF VITALO2-Certificate and Test Report
Mucosal Toxicity Test Report
┃KTR(Korea Testing & Research Institute) Mucosal Toxicity Test Report┃
Everywhere It Matters
23. OVERVIEW OF VITALO2-Certificate and Test Report
Skin Irritation Test Report
┃KTR(Korea Testing & Research Institute) Skin Irritation Test Report┃
Everywhere It Matters
24. Detail Introduction of VITALO2-F
┃WhatisVITALO2-F?┃
VITALO2-F is a powerful sterilizer and disinfectant which is registered as “Food Additive” according to the
notification “Standard & Requirement of Food Additive”. VITALO2-F can eliminate virus, bacteria and protaza and very
Eco-friendly as it does not produce and carcinogenic disinfection-by-product, such as THMs.
┃FEATURES┃
» Eco-Friendly Disinfectant, Sterilizer and Deodorizer Agent
» Non-Toxic, Non-Alcohol and Non-Antiseptic
» Eliminate virus, bacteria, fungi, and odor.
» 100% Pure CLO2 + distilled water only
» Preventing spoilage, maintaining freshness and remove pesticide
» Eliminate Salmonella, Listeria, Legionella and etc.
» Strengthen immunity
» Improve digestion ability
» Prevent &Treatment of diseases
Everywhere It Matters
25. Detail Introduction of VITALO2-F
Aquaculture
┃Aquaculture ┃
Live Fish
Water disinfection in breeding and growing ponds
Maintenance of ornamental ponds and aquaria
Egghatcheries
TransportationWater
Disease treatment duringholding
Fish Industry:
General disinfection on fishing boats
Wholesale/Retail fishwashing
Shelf-life extension throughwashing
Dipping de-scaled and gutted fish
Spray/Dipping for fish and shellfish
In sorting/grading water for fish and shellfish
Aquaculture Processing
Elimination of all water-borne viruses
Algaeremoval
Disease preventiontreatment
Fish larvalrearing
Shrimp larvalrearing
Spraying infeed
Treatment of diseases
Ice manufacture (extends shelf life)
Equipment, surfaces and general facility disinfection
Disinfection of retail display cabinets
Waste water treatment including Red water
Food ProcessingAid
Ornamental fish and aquaria
Egg Hatcheries Transportation Water Fish Processing Fish Display Cabinet
Everywhere It Matters
26. Detail Introduction of VITALO2-F
Aquaculture
┃Apply VitalO2 to Aquaculture ┃
Shrimp(Pawn) Disease
VitalO2-F can prevent or kill water born virus and bacteria
such as Acute Hepatopancreatiz Necrosis Syndrome(AHPNS),
White Spot Disease(WSSV), Taura Syndrome, Infectous Myon
ecrosis(IMN), White muscle Disease, Vibrio and Rhizocephala
u Disease.
Acute Hepatopancreatiz
Necrosis Syndrome(AHPNS)
White Spot Disease(WSSV)
Infectous Myonecrosis(IMN)
White muscle Disease
Taura Syndrome
Rhizocephalau Disease Vibrio Virus
Shrimp
Disease
Everywhere It Matters
27. Detail Introduction of VITALO2-F
Aquaculture
┃Apply VitalO2 to Aquaculture ┃
Fish Disease
VitalO2-F can prevent or kill water born virus and bacteria
such as fish Ick, ragged fin, rot, fungus, clamped fin, dropsy, gi
ll mites, hemorrhagic septicemia, and gill flukes.
Fish Ick Ragged Tail Fin
Clamped Fin Dropsy
FungusFin, Tail, Mouth Rot
Gill Mites
Fish
Disease
HEMORRHAGIC SEPTICEMIA
GILL FLUKES
Everywhere It Matters
28. Detail Introduction of VITALO2-F
Aquaculture
┃Agriculture & Horticulture┃
Agriculture & Horticulture
Stimulates crop growth
Reduces the risk of destructive mold, fungal and
bacterial infection
Water improves absorption of water into plant
roots
Larger and healthier crops
Increase the growth promotion effect and yield by
sterilizing vegetables, flower and fruit
Elimination of Listeria / Escherichia coli 99.9%
Prevent diseases
Fruit & Vegetable Processing
Application of vegetables / fruit packs
Sterilization effect and extension of shelf life
Excellent anti-corruption and freshness maintenance effect
Utilizing sterilization and pre-treatment of food packaging
Machinery disinfection, corrosion prevention, space
sterilization at the processing plant
Remove pesticide & odor
Disinfection of retail display cabinets
Fruit and Vegetable Washing
Eliminate all virus and bacteria
2015.02.23 2015.03.01 2015.03.18 2015.03.25
Everywhere It Matters
29. Detail Introduction of VITALO2-F
Aquaculture
┃Apply VitalO2 to Agriculture & Horticulture┃
Sugar Test(Use VitalO2)Sugar Test(No VitalO2)
Cultivation with VitalO2(Right) 30 days in the refrigerator
Before VitalO2 Apply After VitalO2 Apply
Everywhere It Matters
30. Detail Introduction of VITALO2-F
Aquaculture
┃Livestock and Poultry┃
Livestock and Poultry
Sterilization and disinfection of livestock farms
Improve egg production
Egg quality and weight gain
Breeding ability improvement
Odor and harmful insect suppression
Disinfection of animal feed drinking water
Harbors bacteria, toxins and disease
Kills bacteria and fungal toxins that affect animal health, well-being and performance
Effective as a spermicide, biocide, viruscide and fungicide
Improves overall animal performance
Eliminate mal-odor (pigs, cows and poultry farm, livestock manure, urine box)
Livestock &
Poultry
Common
Disease
Everywhere It Matters
31. Detail Introduction of VITALO2-F
Aquaculture
┃Apply VitalO2 to Livestock and Poultry┃
Prevention of infectious diseases(Disinfect & Sterilize)
Disinfection of animal feed and drinking water
Deodorize Livestock & Poultry manure
Everywhere It Matters
32. Detail Introduction of VITALO2-A
┃WhatisVITALO2-A?┃
VitalO2-A has the ability to kill water-borne viruses such as legionella, cholera, dengue, hepatitis and typhoid.
VitalO2-A also kills airborne viruses when misted into air or applied to contaminated surfaces via HVAC or spray
systems. Airborne viruses include anthrax, influenza, SARS, smallpox, chickenpox and avian flu.
┃FEATURES┃
» Eco-Friendly Disinfectant, Sterilizer and Deodorizer Agent
» Non-Toxic, Non-Alcohol and Non-Antiseptic
» Eliminate virus, bacteria, fungi, and odor.
» 100% Pure CLO2 + distilled water only
» Disinfect and sterilizing facilities, equipment and devices
» Disinfect space and surface
» Eliminate Red tide, Green algae
» Deodorize smell
» Water treatment
Everywhere It Matters
33. Detail Introduction of VITALO2-A
Aquaculture
┃Water Treatment┃
Swimming pool disinfectant
Disinfect cooling tower
Control of microbial contamination
Prevent the growth of microbial slime (biofilm)
Water purification system
Remove red tide and green algae
Disinfect waste water
Kills all water-borne micro-organisms
Removal all odor from water
Sterlization E.coli, Staphlococcus aureus, Shigela & Salmonella
over 99.99% after 10 second
Disinfect Swimming Pool Disinfect Cooling Tower Prevent the growth of biofilm
Everywhere It Matters
34. Detail Introduction of VITALO2-A
Aquaculture
┃Apply VitalO2 to Water Treatment┃
VitalO2 is also a powerful oxidizer of various chemical contaminants, including iron, manganese,
sulphides, amines, mercaptans, cyanides and phenols
Iron in Water Manganese in Water Phenols in Water
Sulphide in Water Amines in Water Mercaptan in Water Cyanides in Water
Everywhere It Matters
35. Detail Introduction of VITALO2-A
┃Space & Surface Treatment┃
Sterilized hospital equipment and facilities
Disinfect house items
Disinfect and deodorize all public area
Disinfect school and university facilities
Remove all odor in closed space
Disinfect governmental building
Disinfect all transport
Kills all air-borne micro-organisms
Sterilized and disinfect tableware and kitchenware
◆ Powerful Deodorization
Oxidative decomposition thru powerful oxidizing effect
Naturally disappears by light and air after application Eco-friendly
Malodor
compounds Destroys
the malodor
compounds
Effective in removing the essence of malodor such as H2S,
Mercaptans, ammonia, phenol and formaldehyde.
Oxidation & decomposition
Deodorization
No residue
(Eco-friendly)
◆ Harmful Microoroganisms
Effective : Super bacteria, food-poisoning E-Coli(O-157),
Staphyllococcus, Resistant Staphyllococcus, Salmonela
Destruction ofcell
membrane
No resistance
No residue
Removal of microorganism is most effective to eliminate
the malodor from the bacteria and its metabolite
VitalO2 destroys the cell membrane and nucleus of
bacteria thru its powerful oxidation mechanism
◆ Removal of harmful Virus
Effective on H1N1, FMD, Pathogenic virus
Virus Damage on DNA
and Protective Coat
No DNA replication
(No landing on cell wall)
Inhibits the activation by the destruction of DNA structure
No DNA replication or No landing on cell wall – DNA structure Damage
Official recognition of disinfecting Efficacy : H1N1, FMD, Pathogenic virus
Everywhere It Matters
36. Detail Introduction of VITALO2-A
┃Apply VitalO2 to Space & Surface Treatment┃
Disinfect & Sterilize All Space and Surface with VitalO2
School & University Hospital & Clinic Restaurant
Transportation Kindergarten & Baby care Office
Everywhere It Matters
37. Media and Video
┃VitalO2 Test Video and TV Media ┃
VitalO2 Test: Fish Tank
https://youtu.be/fQPHgBruLRk
VitalO2 Test: Household Items
https://youtu.be/7-d7A6qihpU
VitalO2 Test: Kindergarten
https://youtu.be/fAM04GrpHiA
VitalO2 Test: Strawberry cultivation Powdery gray mold Anthrax
https://youtu.be/n2tP7ZD5-UY
VitalO2 on HanKyung TV
https://youtu.be/M6Dpxa6cckY
VitalO2 on Asia News
https://youtu.be/gudzxOu5KeA
Kill
Virus & Bacteria
Eliminate
mal-Odor
Purified
Water
Prevent
Diseases
Strengthen
Immunity
CAN
Everywhere It Matters
38. Certificate & Test Report in English
┃VitalO2 Deodorizing Inspection Report┃
Everywhere It Matters
39. Certificate & Test Report in English
┃VitalO2 Disinfectant Test Report 1┃
Everywhere It Matters
40. Certificate & Test Report in English
┃VitalO2 Disinfectant Test Report 2┃
Everywhere It Matters
41. Certificate & Test Report in English
┃VitalO2 Antibacterial Test Report ┃
Everywhere It Matters
42. Certificate & Test Report in English
┃VitalO2 Eco-Label Certificate┃
Everywhere It Matters
43. By partnering with our customers everywhere they need us,
we help keep their operations clean and safe, ensure their businesses perform well and enable
them to make the world better.
VITALO2
THANK YOU