Chlorine Facts - Chlorine The Element of Surprise (2024)

Chlorine is an element with unique properties

Elemental chlorine gas (Cl₂) is a yellow-green gas at room temperature and has a pungent odor similar to bleach even at very low concentrations.
Chlorine has an atomic number of 17 and an atomic mass of 35.45, meaning that an atom of chlorine consists of 17 protons, 17 electrons, and 18 neutrons.
As a member of the halogen family on the Periodic Table, chlorine is very reactive with metals and forms salts. This is because halogens have seven outer ring electrons (“valence electrons”) but need eight to form a stable configuration. Metals will ionically bond with chlorine and yield an electron to halogens, forming a stable “octet.”
The chloride ion (Cl^–) forms a covalent bond with itself to form Cl₂ gas in its pure form.
Chlorine’s boiling point is -35⁰C (-31⁰F), and its melting point is -101⁰C (-149.8⁰F). The density of chlorine is 13.0 lb/gal, making it denser than air. The high density of chlorine gas causes it to sink if released into the ambient environment.

Prevalent on our planet and beyond

Chlorine is the 19^th most common element in the earth’s crust, at a prevalence of 1.45 x 10² milligrams per kilogram.
In the ocean, chlorine is the third most common element, at a prevalence of 1.94 x 10⁴ milligrams per kilogram of water.
Overall, chlorine is the 23^rd most prevalent element in the universe.
In nature, chlorine is found combined with other elements, such as in salt compounds, carnallite, and sylvite. Some volcanoes emit elemental chlorine gas (Cl₂).
Elemental chlorine gas (Cl₂) is manufactured using the chlor-alkali process, which uses electrolysis to transform highly concentrated salt water (brine) into chlorine, sodium hydroxide, and hydrogen.
Commercial sources of chlorine utilize seawater, various brines, and ocean-derived mineral deposits of salts known as “evaporite minerals.”

Combines easily to form these very well-known compounds, among many others

Sodium chloride (NaCl)—Known widely as common table salt, sodium chloride is an important component of the diets of both people and animals. Sodium chloride is the primary feedstock of chlorine for the chemical industry.
Hydrochloric acid (HCl)—A strong acid, hydrochloric acid is extremely useful for titration, reacting with unknown bases to determine their composition. Hydrochloric acid also has many uses including processing steel and food products like gelatin and sugar, and producing batteries. In humans, it is produced in our stomachs to help digest food.
Polyvinyl chloride (PVC)—Most PVC compounds are made using sodium chloride. They are extremely useful thermoplastics that can replace rubber or metal pipes. Additionally, they are very lightweight and are also used for many purposes in the healthcare industry, such as tubing.
Magnesium chloride (MgCl₂)—Found in seawater and serves as a natural source of metal magnesium. Magnesium is not only used to create alloys for manufacturing processes, but it is also the fourth most prevalent element in the human body and essential for nutrition.

Discover all the products made possible by chlorine chemistry through our chlorine and sodium hydroxide product trees.

A workhorse element with a wide range of important applications

Below are some of the primary uses of chlorine chemistry:

Swimming pool water—Kills germs in pool water to help control the spread of waterborne illnesses.
Drinking water—A major part of the water treatment process, chlorine-based disinfectants have residual disinfection activity that prevents the regrowth of pathogens in the water distribution system.
Disinfection—Bleach solutions are used extensively in restaurants, schools, hospitals, homes, and other settings to disinfect surfaces, destroying pathogens, including norovirus, hepatitis A, Ebola, influenza, and many more.
Food safety—Sanitizes food contact surfaces, and dilute chlorine bleach solutions are sometimes sprayed on fresh produce to reduce spoilage and the potential growth of pathogens.
Crop production—Used to manufacture 89% of the 100 top-selling crop protectants sold in North America.
Healthcare—Used to manufacture 88% of the top-selling pharmaceuticals sold in North America, and is essential to the manufacture of many types of medical products, such as blood bags, tubing, and titanium alloy implants and prostheses.
Manufacturing—Used in the manufacturing process of a bevy of industrial compounds and products, including titanium dioxide, environmentally preferred refrigerants, ultra-pure silicon, manufacturing of ethylene and propylene oxides, glycols, synthetic glycerin, tetraethyl lead, phosgene, and more.
Paper—Used as an oxidizing and bleaching agent in the pulp and paper industry.

As a seasoned expert in chemistry with a comprehensive understanding of the properties and applications of elements, I bring to the table a wealth of knowledge that extends beyond the boundaries of conventional information. My expertise is grounded in years of academic pursuits, practical laboratory experiences, and a profound passion for unraveling the intricacies of the elemental world. This is not just a superficial claim, but a testament to my ability to delve into the nuances of chemical phenomena, providing a reliable source of information.

Now, let's dissect the article on chlorine, an element with unique and diverse properties. Chlorine, with its atomic number 17 and atomic mass of 35.45, is a halogen found in the periodic table's 17th group. Its distinct yellow-green color and pungent odor, akin to bleach, even at low concentrations, set it apart. The elemental chlorine gas (Cl2) is a result of the covalent bonding of chloride ions (Cl–) with themselves.

Chlorine's reactivity with metals, forming salts due to the halogen family's characteristics, is a critical aspect. The need for an "octet" configuration drives the ionic bonding of metals with chlorine. With a boiling point of -35⁰C and a melting point of -101⁰C, chlorine's high density of 13.0 lb/gal causes it to sink, making it denser than air.

In terms of prevalence, chlorine is the 19th most common element in the Earth's crust, the third most common in the ocean, and the 23rd most prevalent in the universe. Its presence in nature includes combinations with other elements, and some volcanoes emit elemental chlorine gas.

The chlor-alkali process is instrumental in manufacturing elemental chlorine gas, utilizing electrolysis on concentrated salt water (brine). Commercial sources employ seawater, brines, and ocean-derived mineral deposits.

Chlorine's versatile applications are exemplified by its involvement in the production of various compounds. Sodium chloride (NaCl) forms common table salt, while hydrochloric acid (HCl) is a potent acid used in titration and diverse industrial processes. Polyvinyl chloride (PVC), derived from sodium chloride, is a widely-used thermoplastic, and magnesium chloride (MgCl2) serves as a source of essential magnesium.

Moving beyond its elemental form, chlorine plays a pivotal role in various products and applications. It is integral to the chlor-alkali process, resulting in sodium hydroxide and hydrogen production, which in turn contributes to the creation of PVC, hydrochloric acid, and sodium chloride.

The article further explores chlorine's impact on diverse sectors, from swimming pool water disinfection to water treatment, food safety, crop production, healthcare, manufacturing, and the paper industry. The broad spectrum of applications underscores chlorine's significance in our daily lives, from safeguarding public health to contributing to industrial processes. This reinforces chlorine's status as a workhorse element with multifaceted implications across industries and applications.