Design of Building and Lighting Installations

Scope of Services
Selected Projects

Comprehensive documentation of lighting and electrical installations – from fixture layouts to 3D models and technical calculations

We design lighting and building electrical systems – for both process and non-process areas. We work in a BIM environment, taking into account investor requirements, technology, and architectural and industry-specific regulations.
Whether you need only a fixture layout, calculations and schematics, or complete 3D documentation with a bill of materials – we will tailor the scope to your project.

Who do we design building electrical systems for?

Power and CHP plants
Thermal waste treatment plants
Waste sorting facilities
Manufacturing plants
Automotive sector
Cogeneration installations
Oil & Gas facilities

Why Enetecs?
We design building systems with a deep understanding of technology and installation requirements

  • We design in a 3D BIM environment – ensuring full interdisciplinary coordination
  • We understand EPC project requirements – we design for industrial facilities, process installations, infrastructure and public utility buildings
  • We offer comprehensive designs – covering both internal and external installations, including emergency and evacuation lighting
  • We create documentation with prefabrication in mind – including shop drawings and bills of materials
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What do we offer?

Our range of services in building systems design includes:

Lighting Designs:

  • Architectural/facade illumination
  • General and emergency lighting
  • Evacuation lighting
  • Outdoor lighting

Building Electrical Installations:

  • Socket and maintenance outlet circuits
  • Earthing systems
  • Lightning protection systems
  • Cable tray systems dedicated to lighting
  • Power supply for HVAC and sanitary equipment
  • Low-voltage systems, including CCTV, access control, intrusion detection (SSWiN), LAN networks, structured cabling systems (RKD), etc.

Design Stages:

  • Conceptual, basic, building permit, detailed design, and as-built documentation
  • 3D modeling in the BIM environment
Comprehensive design of building systems:
  • We design lighting systems in a coordinated way, including the use of DALI modules, central battery systems, or other custom-selected solutions.
  • If needed, we can support your procurement process by preparing material specifications related to our scope of work.
  • We also offer on-site support by providing engineers for design author supervision or support for the installation contractor.
How Does Our Process Work?

Submission of a Request for Quotation (RFQ)

Analysis of the Request and Input Data

Tailored offer preparation

Meeting to define scope and delivery timeline

Order placement per GTCS or negotiated agreement

Input data/documentation freeze

Design execution and delivery

Implementation of changes due to updated input data, if needed

Technologies We Use
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Our Experience in Numbers

Warsaw Waste-to-Energy Plant
Years: 2022/2025

Architectural illumination fixtures

lighting design for facades and architectural structures
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Projection mapping fixtures

designed as part of a special lighting system

Gdańsk Waste-to-Energy Plant
Years: 2021/2023

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General and emergency lighting fixtures

complete detailed documentation compliant with EPC requirements

Rzeszów Waste-to-Energy Plant
Years: 2022/2025

0

General and emergency lighting fixtures

complete detailed documentation compliant with EPC requirements

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for whom we’ve delivered hundreds of successful designs?

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Learn more about our projects
in building installations

Professional Lighting Design – Tailored to Every Space

Impact of Modern Lighting Systems on Energy Efficiency

Lighting can account for 15–30% of total energy consumption in industrial and commercial facilities. Properly designed lighting installations not only ensure comfort and workplace safety but also significantly reduce operational costs.
Modern LED solutions combined with intelligent lighting control systems can reduce energy consumption by 50–80% compared to traditional systems, while offering superior lighting performance.
With increasingly strict energy efficiency standards (such as the EPBD Directive) and rising energy costs, professional lighting design has become a key element of every company’s energy strategy.

Lighting Standards and Quality Requirements in Industrial Facilities

Lighting system design requires detailed knowledge of standards such as:
  • PN-EN 12464-1 – Lighting of indoor workspaces,
  • PN-EN 1838 – Emergency lighting.
These standards define not only the required illuminance levels (lx) but also critical parameters, including:
  • Uniformity of illumination,
  • Colour Rendering Index (Ra),
  • Correlated Colour Temperature (CCT),
  • Unified Glare Rating (UGR),
  • Maintenance factor.
For each type of industrial space, specific requirements apply: 50 lx for corridors, 300–500 lx for standard production halls, and 1000 lx or more for precision work and quality control. Professional design ensures full compliance, directly affecting workplace safety and comfort.

Lighting and Its Impact on Safety and Productivity

Proper lighting in industrial environments goes beyond regulatory compliance – it directly influences workplace safety and productivity. Research shows that appropriate lighting parameters can:
  • Reduce workplace accidents by 30–50%,
  • Improve employee concentration and reduce errors by 10–15%,
  • Decrease eye strain and related discomfort,
  • Positively affect employee well-being through biological light effects.
Human-Centric Lighting (HCL) systems, which adjust lighting parameters to natural circadian rhythms, are particularly important in facilities operating in shift work systems.

Intelligent Lighting Control – The New Standard in Design

Modern lighting control systems go far beyond traditional switches. Advanced solutions, such as DALI (Digital Addressable Lighting Interface) and KNX, offer:
  • Individual addressing and control of every lighting point,
  • Automatic adjustment based on occupancy and daylight availability,
  • Integration with Building Management Systems (BMS),
  • Energy consumption and system condition monitoring,
  • Creation of dynamic lighting scenes adapted to specific tasks and conditions.
Intelligent control can reduce energy consumption by an additional 30–40% compared to LED installations without advanced control, while offering predictive maintenance and rapid fault detection.

Emergency and Evacuation Lighting Design – When Every Second Matters

Emergency and evacuation lighting is a critical safety element in every industrial facility. Modern design approaches include:
  • Advanced evacuation route modeling and emergency scenario simulation,
  • Central battery systems with continuous status monitoring,
  • Automatic testing compliant with PN-EN 50172,
  • Addressable emergency luminaires enabling remote diagnostics,
  • Dynamic evacuation systems that adjust signage based on the actual situation (e.g., bypassing hazardous zones).
Professional emergency lighting design goes beyond minimum legal requirements, considering facility specifics, potential hazards, and user characteristics.

Outdoor and Architectural Lighting – Functionality and Aesthetics

Modern outdoor lighting in industrial facilities is not only functional but also serves as part of the facility’s visual identity. Key design elements include:
  • Precise light distribution control to minimize light pollution,
  • Dynamic adjustment to weather conditions and time of day,
  • Renewable energy solutions (e.g., solar-powered luminaires),
  • Integration with security systems (CCTV, access control).
Architectural illumination using high-precision LED projectors with interchangeable lenses and DMX control systems highlights the unique character of a building, creating a recognizable visual landmark for the company.

Sustainable Approach to Lighting Design

Modern lighting design incorporates sustainability principles, including:
  • Minimizing light pollution in line with International Dark-Sky Association guidelines,
  • Using environmentally friendly and recyclable materials,
  • Designing with full product life cycle in mind,
  • Optimizing installations for easy maintenance and future upgrades.
Sustainable lighting design is not only about ecology – it is also about long-term cost efficiency and corporate social responsibility.

Comprehensive Lighting Design – A Profitable Investment

Professional lighting design requires a multidisciplinary approach, combining expertise in electrical engineering, optics, ergonomics, visual perception psychology, and energy efficiency.
It is an investment that pays off through:
  • Improved safety and productivity,
  • Significant energy savings,
  • Enhanced comfort and well-being of employees,
  • Long-term operational efficiency throughout the facility’s life cycle.