Power Mech Projects Bags ₹2,500 Crore EPC Order from BHEL for Singareni Thermal Power Project

Power Mech Projects Limited (PMPL), one of India’s leading industrial engineering, construction, and services companies in the power and infrastructure sectors, has secured a major ₹2,500 crore (excluding GST) order from Bharat Heavy Electricals Limited (BHEL) for the 1 x 800 MW Singareni Thermal Power Station (TPS) Stage-II project at Pegadapalli, Jaipur Mandal, Mancherial District, Telangana.

The upcoming 1 x 800 MW unit is an expansion of the existing 2 x 600 MW Singareni Collieries Company Limited (SCCL) thermal power plant. BHEL has been awarded the project on a complete EPC basis (BTG + BoP), with PMPL entrusted with the Balance of Plant (BoP) package on an EPC basis. The total project duration is 38 months.

Scope of Work

• Under the contract, PMPL will be responsible for Engineering, Procurement and Construction (EPC) of the following key systems:

• Coal and Biomass Handling System

• Ash Handling System

• Utilities and Induced Draft Cooling Tower (IDCT)

• Water and Wastewater Treatment Plant

• Fire Protection System

• Associated Civil and Structural Works

• Electrical and Control & Instrumentation (C&I)

CMD Speaks

Commenting on the project award, Mr. Sajja Kishore Babu, Chairman and Managing Director, Power Mech Projects Limited, said: “This project will further strengthen our robust order book and reinforce the company’s core capabilities in Engineering, Procurement and Construction, in line with our strategic growth vision. It also aligns with India’s broader mission to enhance power generation capacity and ensure long-term energy security through reliable base-load thermal power.”

He further added that while India continues to advance its renewable energy transition, thermal power remains critical for ensuring round-the-clock electricity supply and grid stability. The Government of India’s roadmap includes the addition of high-efficiency supercritical and ultra-supercritical thermal units with biomass co-firing to balance performance efficiency with environmental sustainability.