Online Battery Energy Storage (BESS) Design Course Training

Online BESS Design course Training

We provide specialized skill-development courses tailored for various engineering domains. Our Online BESS (Battery Energy Storage System) Design Course equips learners with the practical knowledge and design skills required to work with modern energy-storage technologies.

This BESS design course covers essential concepts, real-world applications, and hands-on design methodologies to help engineers and professionals develop strong competencies in designing efficient and reliable battery energy storage systems

With the growing demand for renewable energy integration, grid stability, and sustainable power solutions, BESS has become a critical technology worldwide. This course provides in-depth knowledge, hands-on design skills, and practical tools required to design efficient, safe, and commercially viable BESS systems.

• Understand the fundamentals of energy storage technologies and BESS architecture
• Perform sizing and selection of batteries based on application requirements
• Design complete BESS solutions, including electrical layout, protection, and control systems
• Evaluate performance, efficiency, and life-cycle considerations
• Understand standards, safety requirements, and regulatory compliance
• Analyze cost components and prepare techno-economic assessments
• Analyze cost components and prepare techno-economic assessments

Syllabus: Online BESS Design course Training :

Chapter 1- ELECTRICAL SYSTEM ANALYSIS



• Engineering Planning of storage system
• Identification Type of Load Pattern (Continuous, Intermitted or Backup)
• Identifications of existing electrical network and system information’s
• Study of load pattern and load type to be served by BESS
• Calculation of on grid / off grid load.
• Calculation existing demand and future requirement
• System study for BESS.
• Electrical load and energy consumption calculation



Chapter - 2.SCHEME OF BATTERY ENERGY STORAGE SYSTEM



• Solar-plus-storage system architectures
• Advantage and disadvantage of AC Coupling
• Advantage and disadvantage of DCC Coupling
• Selection of AC coupling equipment’s
• Selection of DC coupling equipment’s
• Comparison between AC coupling and DC coupling



Chapter- 3. BATTERY SIZING AND SELECTION



• Type of battery and its selection (Li-ion, Ni-cd , lead acid etc.)
• Selection of battery cell and types
• Standardized sizes and shapes pertaining to both primary and secondary batteries
• Selection of Key technical terms: end of life ,Depth of discharge (DOD),State of charge (SoC),Cycling rate (C-rate)
• Study Battery critical parameters selection (voltage of cell , Specific energy, Charge (C-rate), dis-Charge (C-rate),Cycle life,current density,Thermal runaway and Applications
• Battery series parallel connection and String size
• Battery mounting arrangement and installation methodology.
• Battery backup hours



Chapter- 4. SELECTION & SIZING OF PCU AND GRID TIED SOLAR INVERTER



• Selection of bi-directional power conditioning unit (PCU)
• Working principle of bi-directional PCU
• Selection & sizing AC rating of PCU.
• Selection & sizing AC rating of grid tied solar inverter
• Selection critical parameter of inverter and PCU: input AC, AC output
• Energy Management System .
• Batteries and battery management systems
• Dc Input,Dc Output,Battery Charger parameters



Chapter 5 - SELECTION & SIZING OF BALANCE OF SYSTEM FOR BESS



• Selection sizing of inverter duty transformer
• Sizing of BESS container & ventilation arrangement
• Selection of ACDB , DCDB and switchgear selection
• Selection of DC cable between DC DB to PCU
• Selection AC Cable between ACDB to transformer
• Cable section for PCU and Inverter
• Type of Earthing and calculation
• Section of string inverter or central inverter
• Protection scheme of HTside



Chapter 6 -SELECTION & SIZING OF CABLE DESIGN FOR BESS



• Selection and Sizing of AC cable
• Selection Criteria of DC cables and AC Cables
• Voltage Drop of cable
• Cable Impedances
• Maximum Permissible Voltage Drop as per standard
• Short Circuit Temperature Rise calculation of cable



Chapter 7 -EARTHING DESIGN AND CALCULATION FOR BESS



• Type of Earthing and calculations
• Factors Influencing The Choice Of Earthed And Unearthed Systems
• System Earthing & Equipment Earthing Connections To Earth
• Resistance to Earth and Earth Electrode Current Density at The Surface of an Earth Electrode
• Selection of an Earthing Conductor and Connection of an Electrode



Chapter 8 -SCHEMES OF PROTECTION FOR BESS



• Type of Protection schemes for BESS
• Fault Current / Short circuit current calculation for BESS
• Type of Protection schemes for BESS



Chapter 9 -SWITCHGEAR SELECTION AND SIZING FOR BESS



• Types of Schemes of Switchgear
• Selection and Sizing of Transformers
• Selection sizing of inverter duty transformer



Chapter 10 -Sizing of BESS Container & HVAC System



• Sizing of BESS container & ventilation arrangement



Chapter 11 -ENGINEERING DRAWINGS & LAYOUTS



• Preparation of BESS single line diagram
• Preparation of AC single line diagram
• Preparation of DC single line diagram
• Preparation of BESS container layout & location
• Preparation of Earthing layout
• Preparation of cable layouts