Services

Transmission System Studies

Our engineering team has over 12 years of expertise in the design and analysis of transmission power systems, with matchless capabilities in analyzing complex transmission networks, and specialize in delivering high-quality Transmission System Studies using advanced software tools such as PSSE, PSLF, PSCAD, and PowerFactory. This includes:

Transmission Planning Studies:

Resource characteristics (forecasting, capacity factors)
Capacity expansion and Resource adequacy
Balancing reserves
Operational challenge and Best Practices recommendations

Interconnection Studies:

Active power control and Frequency control (FFR, PFR)
Reactive power control and Voltage control
Power factor control and PQ and UQ capability
LVRT and HVRT and Phase jump and RoCoF ride through

System Impact Studies (SIS):

Short circuit study and Reactive power compensation study
Sub-synchronous Torsional Interaction (SSTI) and Multi-infeed Interaction Factor (MIIF)
Transient Recovery Voltage (TRV) and Transient Over Voltage (TOV)
Power Quality (Harmonic) Study

Distribution Power System Analysis

Our experienced engineering team conducts distribution and low voltage power system modeling and analysis to examine customers’ electrical power system by modeling, simulating, and analyzing its performance under various conditions to identify potential issues, assess its reliability, and optimize its operation, ensuring it functions safely and efficiently under normal and abnormal situations.

This process provides power system analysis report and summary to guide clients engineering teams to make optimized decisions.

Our firm provides following analysis at distribution and low voltage power systems:

Short Circuit Analysis
Equipment Short-Circuit Evaluation
Protective Device Coordination Study
Selective Coordination Study
Arc Flash Incident Energy Analysis
Load Flow Study
Motor Starting Study
Harmonics Analysis
Power Quality Study & Assessment
Transient Stability Application
Site data collection

AMDS Design and Integration

EnerCom’s engineering team develops and designs an extensive, integrated platform of cutting-edge applications that empower utilities to orchestrate a modern, resilient distribution grid. With advanced distribution management capabilities, a robust Outage Management System (OMS), integrated DER orchestration.
Our design provides all possible benefits and solutions which are essential for directly
addressing the challenges of the energy transition.

Design ADMS system, architecture and data flow
Design ADMS communication system, FEP, historian database, development & operation systems
Define ADMS testing scenarios, use cases and model validation
Test ADMS modules, including Unbalance Load Flow, Unbalance Short-Circuit, Load Allocation, Load Demand Flexibility, Feeder Capacity, FLISR, FMSR, Reliability Assessment, Switching Optimization and Asset Management)
ADMS FAT and SAT tests with end-user
ADMS Engineering and Operation training

Renewable Energy Design

There are various types of renewable energy systems, including solar PV, wind, and ocean energy. Each of these systems comes with its own set of advantages and disadvantages, which vary based on factors such as location, availability, cost, and environmental impact.
Our renewable experts provide optimized design to clients and evaluate the potential and feasibility of each option for their specific projects. This involves considering the integration and compatibility of different systems, as well as the storage and distribution of the generated energy. This includes:

Solar PV design and sizing
BESS system design
Back-up generation design
Local Resource controller design

Microgrid Controller Design

Microgrid controllers are systems that enable the effective coordination of microgrid components such as renewable energy sources, energy storage systems, and loads.

Our engineering design aims to deliver a state-of-the-art Microgrid Controller system to ensure grid stability while reducing operating costs across all energy-generating sources within a microgrid. This system is designed to provide seamless integration with all components.

EnerCom services including:

Microgrid controller design with multiple manufacturer (ABB, Siemens, Schneider Electric, SEL, ETAP, Tesla)

Grid connected and grid-Islanding scenario studies
Back-start scenario studies
Laboratory and hardware in the loop (HIL) testing
Operation and maintenance scenario testing

Utility Interconnection Study and Application Approval

EnerCome’s utility expertise provide full Interconnection Study service to our clients to evaluate the feasibility and potential impact of connecting a new electricity generating source (like a solar panel system) to their existing power grid, assessing if the proposed connection can be safely integrated without disrupting grid stability, voltage levels, or power quality, while an “Interconnection Application” is the formal request submitted by a property owner to the utility company to initiate this study and gain approval to connect their generation system to the grid, including details about the project design and equipment specifications.

Our engineering team conducts a series of studies to assess the potential impact of the new generation source on the grid, including load flow analysis, short circuit analysis, and voltage stability checks.

This includes:

Project components and sizing
Point of interconnection (POI) design
Energy storge (BESS)
Interconnection standards (NEC, IEEE 1547, Rule21)
Interconnection best practices
Interconnection cost effective operations
Interconnection application submittal and approval
Net Metering
Permission to operate (PTO)