Initializing Intelligence
Initializing Intelligence
Technical compliance isn't just paperwork; it's an engineering challenge. I automate the verification for VDE-AR-N 4110/4120, Redispatch 3.0, and §14a EnWG – from simulation to the final plant certificate.
BDEW/VDE Compliance Engine
Drop BDEW XML or JSON grid file here
Accepts .xml, .json (Max 10MB)
Curious about the probabilistic math behind these audits?
Missing unit certificates or incomplete models often block the EZA process for months.
Non-availability of real-time data for RD 3.0 leads to significant penalties from the DSO.
Critical deviations in protection concepts can lead to immediate disconnection from the grid.
SLD, datasheets & controller models
PowerFactory Simulation (RMS/EMT)
VDE-AR-N 4110 conformity check
Technical report for certifiers
Anticipating the skepticism of a senior DSO engineer. Addressing the "Triple-Constraint" of German grid planning: Safety (N-1), Data (BDEW), and Legacy (PowerFactory).
The Grid Accelerator Engine utilizes a dedicated pandapower.contingency module to automate security-constrained load flow.
For every BDEW XML ingestion, the engine iteratively 'switches off' each major branch (lines and transformers).
We calculate the max_loading_percent across all N-1 scenarios. If any branch exceeds 100% thermal loading during a single outage, the report flags a Critical Failure, even if the N-0 (normal) state is healthy.
I aim to apply my hybrid skills in simulation and operations to the challenges of the German grid. My goal is to create systems that are resilient, efficient, and future-proof.
Long-term, I will continue to mentor the next generation of engineers, advance STEM education in Africa, and break barriers – always driven by purpose-oriented problem-solving.
I’m happy to discuss whether a short technical engagement makes sense for your grid constraints or compliance workflows. Every engagement is scoped, tool-driven, and defensible.