The Client
India’s leading construction and engineering organization, and one of the world’s top contractors, this company is a core division of a global Indian conglomerate. Operating across multiple high-impact sectors, it brings over eight decades of excellence in technology, engineering, infrastructure development, manufacturing, and turnkey project execution.
The Water & Effluent Treatment (WET) business unit is a recognized leader in providing end-to-end solutions for water infrastructure. From urban and rural water supply systems to desalination plants and wastewater management, WET has delivered large-scale projects across India, Sri Lanka, the Middle East, and Africa.
With a proven track record—over 5,100 MLD of water treatment capacity built and more than 500,000 km of pipelines laid—WET continues to set industry benchmarks and drive innovation in the water infrastructure sector.
Business Needs
The traditional classroom-based vocational training for construction and water treatment trades presented several challenges:
- High logistical costs and manpower requirements to gather trainers and trainees in one location.
- Limited real-world exposure, trainees couldn’t visit Water Treatment (WTP) and Sewage Treatment (STP) plants during training.
- Difficulty in consistently capturing and assessing individual trainee performance.
- Delays in onboarding and workforce readiness due to time-intensive in-person sessions.
- Heavy reliance on paper-based training materials and physical infrastructure.
Solution Highlights
Excelsoft Technologies developed a digital, immersive learning solution that transformed traditional classroom training into an interactive 3D simulation. Designed to replicate real-world Water Treatment Plant (WTP) and Sewage Treatment Plant (STP) environments, the solution offers trainees a highly engaging, browser-based virtual experience.
The program features 20 modular sessions comprising 148 hours of content, tailored to three distinct user roles: Technician/Operator, Supervisor, and Engineer. Learners can navigate a realistic 3D environment, interact with equipment, and explore operational processes in a contextual, hands-on manner—bridging the gap between theoretical instruction and real-world application.