EETS INC

ELECTRIFYING INNOVATIONS

Harnessing the Power of Electricity

ELECTRIFYING INNOVATIONS

Harnessing the Power of Electricity

GLOBAL GOALS

Generation

Distribution

Infrastructure

Connectivity

OUR MISSIONS

Each project we undertake is a step towards revolutionizing electrical design, aiming to enhance efficiency, sustainability, and innovation.

Generator Fuel Types

Diesel, Natural Gas, Propane, Hydrogen Cells

Renewable Energy Solutions

Wind, Solar, Hydroelectric, Geothermal, Hydrogen

Efficiency and Optimization

Plant Performance Improvement, Generator Retrofitting, Co-generation

Power Quality Improvement

Harmonic Reduction, Voltage Stability, Power Factor Correction

Energy Storage Solutions

Battery Storage Systems, Pumped Hydro Storage, Flywheel Energy Storage, Thermal Energy Storage

Grid Infrastructure Development

High/Medium Voltage Power Lines, Transformers, Switchgear, Power Quality Equipment, Circuit Breakers & Fuses

Power System Reliability

Redundancy Planning, Load Balancing, Emergency Backup Systems, Fault Tolerance

Grid Modernization

Upgrading Aging Infrastructure, Integrating Renewable Sources, Demand Response Systems

System Protection

Protective Relaying, Surge Protection, Lightning Arrestors, Ground Grid

Customer Demand

Forecasting & Management, Demand Response Strategies

Substation Design and Upgrades

Capacitor Banks, Voltage Regulators, SCADA Systems, Remote Control & Monitoring

Safety and Compliance

NEC, NESC, OSHA, UL, IEEE Regulatory Standards, Arc Flash, Hazardous Location Compliance

Infrastructure Resiliency

Hardening Against Natural Disasters, Cybersecurity Measures, Redundant Systems, Security Hardware

Electrification Projects

Rural & Urban Electrification, Microgrid Deployment, Feasibility Studies, Energy Storage Integration

Environmental Impact Reduction

Emission Control, Efficient Equipment Installation, Waste Reduction

Communication Mediums

Fiber, Ethernet, Modbus, Cellular

Data Analytics

Usage Patterns, Predictive Maintenance, Anomaly Detection, Load Forecasting, Energy Consumption Optimization

Communication Networks

Wireless, Fiber Optics for Grid Management, Network Topology

PLC Functionality

Real-time Control, Ladder Logic Programming, Sequential Control and Timing, Modular and Integrated I/O Systems, Process Automation

SCADA Systems Integration

Centralized Monitoring, Data Acquisition, Process Visualization, Remote Control Functionality, Alarm Management

Generator Fuel Types

Diesel, Natural Gas, Propane, Hydrogen Cells

Renewable Energy Solutions

Wind, Solar, Hydroelectric, Geothermal, Hydrogen

Efficiency and Optimization

Plant Performance Improvement, Generator Retrofitting, Co-generation

Power Quality Improvement

Harmonic Reduction, Voltage Stability, Power Factor Correction

Energy Storage Solutions

Battery Storage Systems, Pumped Hydro Storage, Flywheel Energy Storage, Thermal Energy Storage

Grid Infrastructure Development

High/Medium Voltage Power Lines, Transformers, Switchgear, Power Quality Equipment, Circuit Breakers & Fuses

Power System Reliability

Redundancy Planning, Load Balancing, Emergency Backup Systems, Fault Tolerance

Grid Modernization

Upgrading Aging Infrastructure, Integrating Renewable Sources, Demand Response Systems

System Protection

Protective Relaying, Surge Protection, Lightning Arrestors, Ground Grid

Customer Demand

Forecasting & Management, Demand Response Strategies

Substation Design and Upgrades

Capacitor Banks, Voltage Regulators, SCADA Systems, Remote Control & Monitoring

Safety and Compliance

NEC, NESC, OSHA, UL, IEEE Regulatory Standards, Arc Flash, Hazardous Location Compliance

Infrastructure Resiliency

Hardening Against Natural Disasters, Cybersecurity Measures, Redundant Systems, Security Hardware

Electrification Projects

Rural & Urban Electrification, Microgrid Deployment, Feasibility Studies, Energy Storage Integration

Environmental Impact Reduction

Emission Control, Efficient Equipment Installation, Waste Reduction

Communication Mediums

Fiber, Ethernet, Modbus, Cellular

Data Analytics

Usage Patterns, Predictive Maintenance, Anomaly Detection, Load Forecasting, Energy Consumption Optimization

Communication Networks

Wireless, Fiber Optics for Grid Management, Network Topology

PLC Functionality

Real-time Control, Ladder Logic Programming, Sequential Control and Timing, Modular and Integrated I/O Systems, Process Automation

SCADA Systems Integration

Centralized Monitoring, Data Acquisition, Process Visualization, Remote Control Functionality, Alarm Management

THE BLUEPRINT

CAD SOFTWARE

Advanced CAD software for precise and efficient electrical design.

THE PROTOTYPES

PROTOTYPING PROGRAMS

Rapid prototyping to turn ideas into tangible models.

THE ANALYSIS

ANALYTICAL TOOLS

Sophisticated analytical tools to optimize design for performance and safety.

MILESTONES IN ELECTRICAL DESIGN

Need Identification

Determine the specific requirements and objectives of the power system.
Step #1
Step #2

Conceptual Design

Outline a basic framework and approach for the project.

Feasibility Study

Assess technical and financial feasibility.

Step #3
Step #4

Technology Selection

Choose appropriate technologies based on project needs.

System Modeling

Create detailed models of the power system components.

Step #5
Step #6

Simulation and Analysis

Use simulations to predict system behavior and performance.

Design Optimization

Refine the design for efficiency, reliability, and sustainability.

Step #7
Step #8

Component Design

Detail the design of individual system components.

Integration Planning

Plan how different system components will work together.

Step #9
Step #10

Final Blueprint

Produce a comprehensive and detailed final design blueprint.