Services

Electrical Engineering Design Services

At Seacoast Consulting Engineers, we provide Electrical Engineering design services, including; power distribution, site lighting, interior lighting, emergency lighting, fire alarm design, fire pump design, renewable energy systems design and life safety and stand-by generator systems design to commercial, academic, and industrial clients. Every system we develop takes into consideration the client’s energy needs and is created to be scalable to minimize losses while allowing for optimal performance.

Commercial Fire Alarms

Interior & Exterior Lighting

Seacoast Consulting Engineers delivers uniquely customized interior and exterior lighting solutions to improve functionality, aesthetics, and energy efficiency. We work with architects, designers, and contractors to create lighting systems that will complement any interior and outdoor situation. Energy-saving LED and smart lighting options reduce operating costs without sacrificing brightness.

Emergency & Exit Lighting

Safety is at the forefront of every facility, and Seacoast Consulting Engineers designs emergency lighting systems per our clients’ requirements. Designs include self-contained and central battery systems in accordance with national and local safety codes.
Fire Alarm Control Panels
Commercial Fire Alarm Systems

Renewable Energy System Design

Seacoast Consulting Engineers has provided design services for custom, residential, commercial, and utility- scale solar photovoltaic projects since 2005. We design grid-tied, off-grid and microgrid systems with battery storage and generator back-up power for remote.

Fire Alarm Systems

Seacoast Consulting Engineers designs comprehensive fire alarm solutions designed to sense and alert the occupants of a building at the earliest indications of carbon monoxide, smoke and/or fire. The system assures rapid response times and minimizes risks by being compliant with national and local requirements.

Backup Power Systems

Seacoast Consulting Engineers designs backup power systems by first identifying the type of loads requiring backup power (life safety, non-life safety and/or critical equipment loads), calculating their power requirements, then designing the appropriate backup power system with sufficient capacity, incorporating an automatic transfer switch to seamlessly transition to backup power during outages, and consider redundancy features like N+1 configurations to ensure high availability in case of component failure; all while adhering to relevant safety codes and building regulations.