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USEFUL STUDY OF CHLORINE 2- SAFETY
I am going to talk about Chlorine and how we can use this substance in our everyday lives.
First of all, what is Chlorine? Chlorine is a type of chemical element that consists of one atom with 17 protons in its nucleus. It is the third most abundant element on Earth, so it should be no problem for us to find it anywhere. In chemistry, chlorine is commonly used as a disinfectant and bleach – because it oxidizes things easily.
In modern times, since the beginning of industrialization and urbanization, the rate of chlorination has been increasing. As a disinfectant and bleaching agent, chlorine is used in many non-industrial areas such as camping sites and public toilets.
Although there are many beneficial effects from chlorination, it also has some negative side effects on our environment. This is why I chose to write about this topic today.
In the past, chlorination was utilized to clean sewages, which in turn helped control the spread of diseases. Chlorine is very useful; since it is widely known as a cleaning agent and disinfectant.
Chlorine used in water treatments doesn’t dissolve well so the best way to treat water is to mix it with some other compounds like Hydrogen peroxide or ozone.
For years, scientists have been working on safe ways of chlorinating water systems.
These are some of the main points I want to cover in this article:
Uses of Chlorine:
Chlorine chemistry helps keep families healthy and improves our environment and it has played major role in enhancing our daily lives in many aspects, majorly on:
By defending crops from pests, eliminating salmonella, E. coli, variety of other foodborne pathogens. and maintaining the cleanliness of kitchen counters and other surfaces in touch with food, chlorine chemistry contributes to the production of safe and plentiful food.
Thousands of people perished each year from waterborne illnesses like cholera, typhoid fever, dysentery, and hepatitis A until towns started routinely treating drinking water with chlorine-based disinfectants.
Dichlor1 and trichlor2 are chlorine-based disinfectants for swimming pools and spas that help keep recreational waters safe by eliminating bacteria that might cause ailments like diarrhea, swimmer’s ear, or skin rashes.
Swimming pools and drinking water are kept safe by chlorine chemistry.
Chlorine chemistry is utilized in the production of airbags, brake fluid, seat cushions, and bumpers that assist keep passengers safe and pleasant on airplanes, trains, cars, and boats.
Additionally, steel hulls, wire and cable, shatter-resistant windows, and navigational equipment are all made using chlorine chemistry.
Making medicines that we rely on, such as some that can reduce cholesterol, manage arthritis pain, and ease allergy symptoms, requires a thorough understanding of chlorine chemistry.
Blood bags, medical equipment, and surgical stitches all contain byproducts of chlorine chemistry. Additionally, respiratory inhalers, safety glasses, and contact lenses are made using chlorine chemistry.
Defense and Law Enforcement
The bullet-resistant vests worn by troops and police personnel are created using a chemical using chlorine.
Along with cockpit canopies and missile guiding technology, chlorine chemistry is also utilized to create parachutes, night vision goggles, and other items.
The norovirus (commonly known as the “stomach bug”) and seasonal flu are just two examples of bacteria that can be killed by diluted bleach and water solutions that can be used in the home.
Household chlorine bleach, which may whiten and disinfect garments as well as disinfect kitchen and bathroom surfaces, is produced using chlorine chemistry.
Building and Construction
Utilizing a chlorine-based manufacturing process, plastic foam insulation can improve the energy effectiveness of household heating and cooling systems, save energy costs, and aid in resource conservation.
Vinyl windows that are energy-efficient can lower heating and cooling expenses as well as GHG emissions.
According to research, producing vinyl windows uses about one-third as much energy as producing aluminum windows.
Additionally, chlorine chemistry is employed in the production of long-lasting paint, which enhances the beauty of every space in your house.
Energy and Environment
Solar energy harvesting relies on chlorine chemistry, which also helps to clean sand grains’ silicon before turning them into solar panel chips. Epoxy resins containing chlorine are used to manufacture the wind turbine blades.
The properties of chlorine that make it a powerful and practical disinfectant. Chlorine facts, dangers and safe usage. Chlorinated water treatment history.
New methods for chlorination. Effects on human’s health. Maintenance of chlorination systems.
Examples of chlorinated products such as laundry additives, swimming pools and plumbing fixtures..
The rise of chlorine and its effects – in order to avoid it using the safe method and products that can be purchased prior to or after hand washing or applying certain products on their skin etc.. Environmental concerns about this substance.
One of the most prevalent and necessary minerals on earth, common salt, is typically used to make chlorine. Hydrogen, a byproduct of the chlorine production process, is used as an energy source in many manufacturing facilities, and sodium hydroxide, another byproduct, is a valuable and necessary product used to make a variety of consumer and industrial goods. These facts demonstrate the efficiency of the chlorine production process.