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Renewable Energy & Transmission Infrastructure (Solar, Wind, Hydro) Construction Management – Professional Certification
Language: ENGLISH
Instructors: BHADANIS CONSTRUCTION PROJECTS PLANNING AND MANAGEMENT TRAINING INSTITUTE FOR CIVIL ENGINEERS & MANAGERS
Validity Period: 365 days
Why this course?
To train engineers, project managers, and construction professionals for India’s fast-growing renewable energy infrastructure—covering design, execution, and management of solar, wind, and hydro power projects including transmission and substation development. This course helps participants build the technical and managerial confidence needed to deliver large-scale renewable energy projects efficiently, safely, and within cost and quality parameters.
India’s renewable energy mission has triggered an unprecedented expansion of solar parks, wind farms, and small hydro plants across the country. Alongside generation projects, massive investments are flowing into transmission lines, substations, and grid integration.
This Professional Certification Program focuses on the construction management aspects of renewable energy projects—from site selection to commissioning—ensuring that participants understand the complete project lifecycle. The course combines civil, electrical, and project management principles customized for renewable infrastructure.
Upon completion, participants will gain hands-on understanding of:
Renewable project planning, design, and execution procedures
Substation and transmission infrastructure construction
Coordination among EPC, civil, and electrical teams
Quality, safety, and environmental compliance
Operation, maintenance, and performance evaluation of renewable assets
The course is suitable for civil engineers, electrical engineers, project coordinators, and site managers who aim to specialize in India’s rapidly evolving clean energy construction sector.
This opening module sets the foundation by introducing the national renewable energy targets and their implications on project execution and construction demands.
Sub-Modules:
Overview of India’s Renewable Energy Mission (Solar, Wind, Hydro Goals): Understanding MNRE targets, renewable capacity milestones, and how government initiatives are shaping investment and construction trends.
Policy Framework and MNRE Guidelines: Review of key policies, approval processes, and financial models that influence construction and project phasing.
Project Lifecycle in Renewable Energy Construction: Step-by-step flow from conceptualization, DPR preparation, and design approvals to execution and handover.
This module focuses on how engineers select and prepare suitable land for solar, wind, and hydro projects.
Sub-Modules:
Criteria for Site Identification: Parameters like topography, solar irradiation, wind velocity, soil bearing capacity, and water availability.
Land Acquisition Procedures and Clearances: Understanding ownership, revenue records, and statutory permissions.
Earthwork, Grading, and Drainage Planning: Preparing the site for construction through leveling, drainage, and access development.
The civil backbone of solar projects determines long-term stability and maintenance requirements.
Sub-Modules:
Design and Construction of Module Mounting Structure Foundations: Shallow and pile foundations, anchor bolts, and anti-corrosion measures.
Road, Drainage, and Boundary Infrastructure: Designing site roads, stormwater drains, and fencing for secure and durable layouts.
Cable Trench, Inverter Pad, and Control Building Construction: Concrete detailing, cable routing, and building integration within solar farms.
Wind turbine projects require precise geotechnical evaluation and specialized construction methods.
Sub-Modules:
Wind Turbine Foundation Design and Construction Sequence: Types of foundations (spread, raft, pile), reinforcement, and curing requirements.
Access Road, Crane Pad, and Tower Erection Logistics: Heavy-lift access road design and logistics planning for large turbine components.
Quality and Safety Practices: Safety protocols during tower erection and foundation works in hilly terrains.
Covers civil works involved in small and medium hydro projects, emphasizing water management and structural integrity.
Sub-Modules:
Construction of Intake, Penstock, and Powerhouse: Sequence of civil works including excavation, concreting, and lining.
RCC and Steel Works in Small Hydro Projects: Detailing, reinforcement scheduling, and joint treatments for water-retaining structures.
River Diversion and Cofferdam Construction: Temporary works for flow management and flood control during project execution.
Bridging civil and electrical interfaces to ensure complete functional systems.
Sub-Modules:
Cable Laying, Earthing, and Internal Power Distribution: Proper trenching, routing, and testing of power and control cables.
Inverter Stations, Transformers, and Control Panels: Construction interfaces for mechanical and electrical installation.
Electrical Quality Checks and Commissioning Procedures: Site testing, insulation resistance, and system energization process.
Substations serve as the connecting hub between renewable plants and national grids.
Sub-Modules:
Layout and Civil Foundation for 33/132/220/400 kV Substations: Planning, excavation, and foundation execution for heavy electrical equipment.
Equipment Installation: Mounting of switchgear, transformers, isolators, and associated accessories.
Testing, Commissioning, and Synchronization: Step-by-step synchronization with the grid, ensuring safety and compliance.
Transmission lines are vital for power evacuation from remote renewable clusters.
Sub-Modules:
Tower Spotting, Foundation, and Erection: Selection of tower type, surveying, and concrete foundation works.
Conductor Stringing, Sagging, and Safety Protocols: Sequence of stringing, tensioning, and clearance verification.
Coordination with Power Grid and Local Authorities: Route approvals, ROW management, and inspection procedures.
Real-world projects succeed when teams synchronize technically and procedurally.
Sub-Modules:
Interface Management between Design, Procurement, and Execution: Tracking responsibilities and preventing design conflicts.
Progress Monitoring and Issue Resolution: Handling schedule slippages and material coordination challenges.
Site Coordination and Documentation: Reporting, RFI handling, and final handover process.
A strong focus on QA/QC ensures durability and regulatory acceptance.
Sub-Modules:
Civil and Electrical QA/QC Checklists: Standard inspection sequences for concrete, steel, and electrical works.
Material Testing Protocols: Testing aggregates, concrete cubes, steel bars, and cables.
Pre-Commissioning Quality and Final Acceptance: Ensuring compliance before energization or operational handover.
Safety compliance is critical given the large open-field environments of these projects.
Sub-Modules:
HSE Guidelines for Solar, Wind, and Hydro Sites: Implementation of risk assessments and safe work procedures.
PPE, Work-at-Height, and Electrical Safety: Rules for safe lifting, electrical isolation, and confined space entry.
Environmental Protection and Waste Management: Water runoff control, dust suppression, and site waste segregation.
This module builds managerial capability to plan, monitor, and control renewable projects efficiently.
Sub-Modules:
Planning, Scheduling, and Cost Estimation: Preparing BOQ, resource charts, and execution timelines.
Resource Optimization for Large-Scale Projects: Labor, equipment, and material balancing for continuous workflow.
Budget Control and Progress Reporting: Cost tracking and periodic financial updates for project owners and PMCs.
Risk control and adherence to energy sector regulations safeguard project sustainability.
Sub-Modules:
Construction and Environmental Risks: Evaluating risks like flooding, lightning, and structural instability.
Mitigation Strategies: Contingency planning for weather delays and cost overruns.
Compliance with Energy Regulations: Understanding CEA, CERC, and environmental laws for renewable projects.
Focuses on sustaining asset health and efficiency post-commissioning.
Sub-Modules:
Maintenance Schedules: Preventive maintenance for solar panels, turbines, and substations.
Inspection and Upkeep of Transmission Lines: Identifying faults, sag issues, and line patrolling methods.
Performance Tracking and Asset Management: Recording performance ratios and fault downtime analysis.
The final module brings practical understanding through real-world examples.
Sub-Modules:
Case Studies of Major Projects: Review of India’s leading solar parks, wind farms, and hydro stations.
Lessons Learned and Execution Challenges: Understanding what caused success or failure in specific projects.
Emerging Trends: Hybrid renewable parks, energy storage integration, and future expansion of transmission corridors.
By the end of the course, participants will:
Understand complete civil and electrical construction workflows for solar, wind, and hydro projects.
Gain clarity on substation and transmission infrastructure management.
Be equipped with knowledge of site planning, execution sequencing, and QA/QC practices.
Learn inter-departmental coordination, safety management, and regulatory compliance.
Be prepared to manage project cost, time, and quality for large renewable installations.
Civil and Electrical Engineers working in EPC, PMC, or Developer organizations
Project Managers and Site Engineers executing renewable or transmission projects
Quality, HSE, and Estimation professionals looking to enter the renewable sector
Engineering graduates aiming to specialize in India’s sustainable construction domain
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