SMART MICROGRIDS
Dimensioning DERs for Microgrid Applications
Reliable, Sustainable, and Custom Energy Solutions
We provide consultancy on how to turn commercial buildings, industrial facilities, university campuses, and community sites into smart microgrids for sustainable energy and resilience.
Smart Microgrids
Planning, safety, design, operation, control, protection and energy management of smart microgrids.
The microgrid design and its operational philosophy aims at minimizing the daily energy costs and CO2 emissions.
Design of the grid-connected microgrids as per IEEE Std 2030.9
Load analysis – Energy resources and Power generation forecasting – Safety – Voltage level selection – Electrical grid structure – Power flow calculation – Short-circuit calculation – stability assessments – Selection of electrical equipment – System configuration – Monitoring, control, and energy management – Protection coordination – Power quality requirements, monitoring and control measures – Energy metering – Requirements for interconnection at PCC with the main electrical grid – Synchronization and re-synchronization with the main electrical network
Island Microgrids
ROSEC Solar specializes in the design, engineering and optimization of off-grid solar PV systems tailored to the energy needs of standalone applications.
Island Microgrid – Isolated Microgrid – Off-grid Microgrid – Remote microgrid – Minigrid
Island microgrids are not simple sum of their parts; they need meticulous engineering to create modular architectures and flexible designs.
ROSEC delivers services for the design and engineering of isolated microgrids for developing smart islands.
Computer-aided sizing and simulation for off-grid microgrids for strengthening resilience of livelihoods in remote areas
An intelligent controller over an ICT infrastructure manages and optimizes the operation of the minigrid for the given load profile
ROSEC Solar offers consultancy for technical and financial modeling of Minigrid installations for community and agriculture applications.
Design and Engineering of decentralized minigrids for rural electrification
AC and DC Coupled Architectures in hybrid minigrids of relatively large scale
For Isolated PV-BESS-DG Minigrids:
Load analysis – Energy resources and Power generation forecasting – Safety – Voltage level selection – Electrical grid structure – Power flow calculation – Short-circuit calculation – stability assessments – Selection of electrical equipment – System configuration – Monitoring, control, and energy management – Protection coordination – Power quality requirements, monitoring and control measures – Energy metering – Voltage and frequency regulation – Energy management to optimize active and reactive power generation and consumption.
Quality Assurance in the design, installation and commissioning of minigrids.
