Time Generation [work] | Wbpdcl Real

The corporation is aggressively expanding into solar, notably commissioning the at Sagardighi (5 MW)

: Instantaneous power generation from active units.

The actual electricity being pumped into the grid at any given second.

: Four thermal power plants (Bakreswar, Santaldih, Sagardighi, and Kolaghat) were ranked among the top ten coal-based stations nationwide. External Real-Time Monitoring

| Parameter | WBPDCL | TANGEDCO (TN) | MAHAGENCO (MH) | |-----------|--------|----------------|----------------| | Real-time data refresh rate | 4–6 sec | 10–12 sec | 6–8 sec | | Automated generation control (AGC) | Partial | No | No | | SLDC integration latency | < 1 sec | ~2 sec | ~1.5 sec | | 24x7 real-time dashboard | Yes | Yes | Partial | wbpdcl real time generation

[X,XXX] MW Total Capacity: [X,XXX] MW

While internal operators use SCADA, the public and stakeholders can view aggregated real-time generation through government initiatives. The Government of West Bengal has launched the portal, a transparency initiative aimed at showcasing the financial and operational health of the state's power sector.

🔹 – Tracking MW output from plants like Sagardighi, Bakreshwar, Santaldih, and Kolaghat every minute. 🔹 Grid stability – Matching generation with state load demand (WBSEDCL/DVC) to avoid frequency drops. 🔹 Fuel & unit status – Coal stock position, unit-wise availability, forced outages, and scheduled maintenance. 🔹 Renewable integration – Adjusting thermal output as solar/wind fluctuates.

Plants can optimize the power used by their own pumps, fans, and mills in real-time, maximizing the net power sent to the grid. Grid Discipline and Financial Savings External Real-Time Monitoring | Parameter | WBPDCL |

The technology behind capturing live generation numbers involves a robust, multi-layered industrial network:

This transparency allows investors, policymakers, and consumers to track how efficiently WBPDCL is utilizing its installed capacity (which includes the newer 660 MW supercritical units at Sagardighi and Santaldih).

When a unit is under shutdown, some portals show “0 MW” but do not distinguish between forced outage and planned maintenance. Cross-check with WBPDCL’s outage schedule available on the ERLDC website.

WBPDCL has turned to advanced digital tools to elevate its operations, most notably through the deployment of , integrated with artificial intelligence (AI) and machine learning (ML) . This initiative, first implemented at the Santaldih Thermal Power Station (TPS), creates a virtual, real-time replica of the physical plant. 🔹 Grid stability – Matching generation with state

Monitoring coal consumption and steam parameters in real time allows for optimizing the efficiency of the units, reducing waste.

How affect the real-time scheduling of these plants

Effective real-time monitoring relies on several critical technological layers:

WBPDCL is continuously upgrading its digital capabilities. The future of real-time generation at WBPDCL lies in and Machine Learning . Future system iterations aim to automatically forecast demand patterns based on weather data, allowing thermal units to pre-emptively adjust their generation baselines. Furthermore, deeper integration of internet-of-things (IoT) devices across older plants (like Bandel and Kolaghat) ensures that even legacy units contribute seamlessly to the modern, digital grid. Conclusion