Our Services

I. Transmission Expansion Planning (TEP) Studies: We offer comprehensive Transmission Expansion Planning (TEP) studies to support the integration of new loads or power plants, as well as to guide the expansion of transmission networks in response to projected load growth.

Our TEP services include:

  1. Power Flow Studies: Evaluation of power system behavior under normal operating conditions and N-1 contingency scenarios across various loading conditions — including peak, dominant, and light load levels — for different TEP options.

  2. Short Circuit Studies: Analysis of short circuit currents and system protection performance for each TEP scenario that satisfies the power flow study criteria.

  3. Transient Stability Studies: Assessment of dynamic system performance and stability following disturbances, conducted on TEP scenarios that meet the power flow requirements.

  4. Economic Analysis: Financial evaluation of each viable TEP scenario, including cost-benefit assessments, conducted after verifying technical feasibility through power flow, short circuit, and transient stability studies.

II. Electromagnetic Transient (EMT) Studies: We provide comprehensive EMT studies, covering a wide range of transient phenomena, including switching transients, lightning-induced surges, and insulation coordination. These studies are essential for ensuring the reliable operation and proper insulation design of high-voltage systems under fast-changing electrical conditions.

III. Electric Field Studies: We perform detailed electric field calculations for a variety of applications in high-voltage engineering, dielectrics, and electrical insulation design. These studies support the optimization of insulation structures, assessment of field stress, and development of innovative dielectric solutions.

IV. Plasma-Based Modeling and Simulations: We specialize in advanced plasma-based modeling and simulation of electrical discharge phenomena, with a focus on pre-breakdown and breakdown behavior in various dielectric media, including vacuum, gaseous, liquid, and solid insulation systems. These simulations are essential for understanding complex physical processes and supporting the design of high-performance insulation structures, high-voltage components, and emerging plasma-based applications.