Helium is the second lightest element after hydrogen with unique qualities that make it indispensable in our daily lives. While helium exists abundantly in nature, it is difficult to obtain and needs to be carefully separated from other elements and gases. In this article, we will delve deeper into the properties of gaseous and liquid helium, their occurrence in nature and various applications.

Properties of Helium

Helium is a colorless, odorless, and tasteless noble gas with excellent thermal conductivity. At standard temperature and pressure, helium exists as a gas but it can be cooled to become a liquid. In its gaseous form, helium has very low density, about 0.165 grams per litre which is why it was utilized to fill balloons and airships. Even liquid helium is only half as dense as water.

Due to its low molecular mass and lack of electronic orbitals, helium is highly inert and non-reactive. It has one of the lowest melting and boiling points of any known substance. At atmospheric pressure, the boiling point of liquid helium is 4.22 Kelvin which is -452.11°F. This superfluid form of helium has almost zero viscosity which makes it flow without any friction.

Occurrence and Extraction of Helium

On Earth, most Helium is produced by the radioactive decay of heavy radioactive elements like uranium and thorium in the crust. It exists in trace concentrations in the atmosphere but is very difficult to obtain in its pure form. Large reserves of helium occur in natural gas fields as it is often found associated with natural gas. The United States has some of the largest deposits and was the dominant producer until the 1960s.

Helium is extracted through an energy intensive cryogenic distillation process where it is separated from other gases based on its low boiling point. Once separated, it is transported in heavily insulated liquid tanks via specially designed tankers maintaining cryogenic temperatures. The extracted helium has to be purified further to obtain 99.995% pure grade suitable for industrial applications.

Applications of Gaseous and Liquid Helium

Due to its unique thermal and physical properties, helium finds diverse applications. Some key uses of gaseous helium include:

- As a lifting gas in balloons, airships and lighter-than-air crafts due to its low density. It replaced hydrogen after the Hindenburg disaster.

- As a pressurizing and purge gas in rocket engines, space capsules and launch vehicles due to its inertness and thermal conductivity.

- For providing protective atmospheres during arc welding to prevent oxidation.

- As a carrier gas in respiratory therapy for neonates and divers due to its low solubility in blood.

Liquid helium is vital for various scientific, medical and industrial applications that require extremely low temperatures:

- As a coolant in cryogenics research involving superconductors, superfluids and cryopreservation.

- In MRI machines that use superconducting magnets requiring persistent cooling below -250°C.

- For studies involving Bose–Einstein condensates and other exotic quantum states of matter.

- In semiconductors fabrication processes demanding ultra-low temperatures.

With rising demand and limited natural reserves, industrial helium recovery and recycling are becoming more important globally. New extraction technologies aim to utilize other noble gas reservoirs and subterranean formations. Fusion energy research relying on superconducting magnets could potentially utilize huge quantities. Alternative non-cryogenic applications are also being explored using physical properties of gaseous helium at higher temperatures. Overall, helium is poised to remain an indispensable material in cutting-edge sciences and technologies well into the future.

In conclusion, helium showcases the wonders of nature through its unique physical attributes and diverse commercial uses. While challenges exist in extraction and efficient utilization, ongoing research and innovations continue to unlock its vast potential. Both as a lifting gas filling our hearts with joy and as a cryogenic fluid fueling scientific discoveries, helium will remain closely intertwined with human progress.