The area had close connections with the Maurya Empire, with Emperor Ashoka's famous Kalinga War taking place nearby in the 3rd century BCE.

It has witnessed the establishment of modern infrastructure, including educational institutions, hospitals, and transportation networks, to cater to the growing population and industrial needs.

Today, Talcher City stands as a prominent industrial hub, primarily known for its coal mining operations and power generation facilities.

Its historical legacy, combined with its economic significance, has contributed to the city's growth and prominence in the Angul district of Odisha.

The Talcher Thermal Power Station plays a crucial role in meeting the energy demands of the state and the country.

The power station has a total installed capacity of 4600 megawatts (MW) and consists of multiple units equipped with advanced supercritical and subcritical technologies.

The coal is sourced from the Talcher Coalfield, transported to the power station, and used to generate electricity through the combustion process.

It has created numerous job opportunities for the local population, both directly and indirectly, thus improving the socio-economic conditions of the area.

The power station's operation and maintenance require a skilled workforce, and the NTPC provides training and employment opportunities to the local community.

While it contributes to economic development and job creation, efforts are being made to mitigate its environmental impact through the adoption of cleaner technologies.

The Heavy Water Board (HWB) facilities in Talcher, located in the Angul District of Odisha, are involved in several activities related to the production of specialty chemicals and isotopes for nuclear fuel use.

Here are the main operations carried out by HWB Facilities in Talcher: Production of Specialty Chemicals: The facility produces various specialty chemicals, including organophosphorus solvents like D2EHPA (Di-2-ethylhexyl phosphoric acid), TOPO (Tri-n-octylphosphine oxide), TAPO (Tri-n-amylphosphine oxide), and DNPPA (Di-n-butylphenyl phosphoric acid).

This unit is responsible for converting Boron Tri-fluoride Di-Ethyl Ether complex [BF3.O(C2H5)2], which contains enriched 10B (Boron-10) of 65% isotopic purity, to Potassium tetra-fluoro borate (KBF4).

These activities at the HWB Facilities in Talcher are significant for supporting nuclear fuel cycle processes, specialty chemical production, and isotopic enrichment.

The garages in Talcher provide the necessary logistics support, maintaining a fleet of trucks, trailers, and vehicles to transport the coal efficiently and reliably.

The industry offers diverse job opportunities, including truck drivers, mechanics, technicians, fuel station staff, spare parts suppliers, and administrative personnel.

These jobs provide a means of income and stability for numerous families, contributing to the economic growth and well-being of the region.

Skilled mechanics and technicians work diligently to keep the transportation fleet in optimal condition, minimizing downtime and ensuring the seamless flow of coal from the mines to the power plant.

Keeping up with changing emission norms, adopting modern technologies, and promoting environmental sustainability are key aspects for the future of the garage industry in Talcher.

By increasing domestic production, India aims to reduce its dependence on imported urea and achieve self-sufficiency in the fertilizer sector.

It aligns with the country's focus on promoting self-sufficiency in key sectors and achieving energy independence through the utilization of domestic coal reserves.

It is responsible for the construction and operation of the Talcher Fertilizer Project, which aims to enhance domestic urea production in India.

The city's industrial landscape encompasses various sectors, including coal mining, power generation, aluminum smelting, steel manufacturing, and fertilizers, making it an important economic center in the region.