[EWISER VPP Market Insights Series — Launching This Week]
Virtual Power Plants (VPPs) are reshaping how energy systems work — from home batteries and EVs to grid services and carbon reduction.
As Singapore and China step deeper into digital energy and decentralisation, EWISER is launching a focused series to unpack:
1️⃣ VPP Opportunities & Challenges in Singapore and China
2️⃣ What Exactly Is a VPP?
3️⃣ VPP Architecture & System Design
4️⃣ VPP Integration with the Grid
5️⃣ VPP’s Role in Carbon Reduction
6️⃣ Case Studies: Lessons from Australia and UK
Whether you’re in energy, policy, digital, or investment — this series is designed for you.
**Follow EWISER to stay updated, and feel free to exchange ideas, insights, or local use cases. Let’s build the future of resilient, intelligent energy together.
[Analysis is from EWISER]
[Analysis is from EWISER]
VPP is not a building — it’s a smart AI-powered platform that connects and controls distributed energy resources (DERs) like solar panels, batteries, EV chargers, and heat pumps and other flexible loads.
[Analysis is from EWISER]
*Let’s break it down:
**[Inputs of VPP]
Real-time telemetry data from DERs (e.g. power, voltage, SOC, SOH …)
Electricity price curves
Weather forecasts in terms of solar irradiance
Flexible loads demand (e.g. EV chargers, heat pump …)
Power grid demand
**The VPP then runs multi-disciplinary analysis powered by AI models to make smart decisions.
**[Outputs of VPP]
Grid Services, such as voltage support, frequency regulation, peak shaving
Grid Resilience support like black start & microgrid operation
Carbon Reduction via prioritising clean energy sources
Economic Value via generating savings and optimises energy use based on user’s application scenarios
Whether it’s stabilising the grid or maximising monthly savings, VPPs are a cornerstone for the future of clean, distributed energy.