Lighting design in industrial facilities is a critical element that directly affects both the efficiency and safety of businesses. This element helps to properly illuminate every work area from production lines to warehouses, from offices to logistics centers, to help employees work more efficiently, and to meet occupational safety standards. At this point, if you want to create a perfect lighting design in industrial facilities, you can review our content titled “The Importance of Lighting Design in Industrial Facilities”. In this way, you can create a correct lighting design in industrial facilities.
The design of industrial facilities plays a critical role in ensuring that a production or operational process is carried out efficiently, safely and sustainably. In this context, the right design not only increases the functionality of the facility, but also provides cost-effectiveness and energy efficiency. For example, it greatly helps in organizing production areas, ensuring the safety of employees and accelerating work processes. In addition, sustainability has become an important design criterion in modern industrial facilities. Therefore, correct energy management, integration of renewable energy sources and processes that reduce environmental impact both protect the environment in the long term and help the business fulfill its legal and social responsibilities. In conclusion, considering all these elements, industrial facility design is indispensable for both achieving success in today's competitive business world and achieving sustainable production goals of the future.
Lighting design in industrial facilities is based on certain basic principles to increase the efficiency of work processes, ensure the safety of employees and optimize energy efficiency. These principles can generally be called providing the appropriate light level (lux value) in each work area. For example, while higher light levels are required for detailed work such as delicate assembly work, lower levels may be sufficient in areas such as warehouses.
In addition, we can say that the homogeneity of light distribution is also important in terms of increasing visual comfort and attracting the attention of employees. At the same time, color temperature and color rendering index (CRI) factors are also important. In this case, color temperatures close to natural light and high CRI ensure correct perception of colors and visual comfort of employees.
Finally, preventing glare and light reflections also reduces eye fatigue in long-term work environments. In addition, preparing a lighting plan customized to the structural characteristics of the esis, the production process and employee needs both increases operational efficiency and contributes to environmental sustainability goals.
These principles mentioned above reveal the fact that lighting design in industrial facilities is not only a technical necessity but also a strategic investment.
Design architecture in industrial facilities consists of planning, analysis and implementation processes to ensure that a facility is built in a functional, safe and efficient manner. This process is usually divided into several basic stages. The first stage, needs analysis, allows the establishment of a design basis that is appropriate for the type of activity, production capacity, logistics requirements and operational goals of the facility. At this stage, customer expectations and sectoral standards are also taken into account.
The second stage is concept design. In this stage, general layout plans, workflows, equipment placement and space usage are determined, and then the next stage, the detailed design stage, is passed. In the detailed design stage, all technical and engineering details of the facility are determined, and infrastructure systems (electrical, mechanical, ventilation, lighting) and building materials are selected.
In the final stage, the implementation planning and construction process begins. During this process, the suitability of the designs for the site conditions is evaluated and the implementation details are clarified, the systems are tested, safety and performance assessments are made and the facility is made ready for operation. All these stages are carried out meticulously, as they require an integrated approach to ensure both operational efficiency and long-term sustainability. In this way, it helps industrial facilities meet both short-term business goals and adapt to future changes.
Jobs Requiring High Precision in the Production Line:
Senaryo: An electronics manufacturing facility assembles small, precision components.
Solution:
Warehouse and Logistics Areas:
Senaryo: In a large logistics centre, large areas need to be illuminated and it is necessary to work safely between different racking systems.
Solution:
Chemical Production Facilities:
Scenario: In a chemical manufacturing facility, specific color temperature and glare control are required for precise processes.
Solution:
Food Processing Facilities:
Scenario: A food processing plant requires lighting that complies with hygienic standards and is focused on work areas.
Solution:
Assembly and Maintenance Workshops:
Scenario: In an automotive workshop, assembly and maintenance of mechanical parts are carried out.
Solution:
Office and Administration Areas:
Senaryo: Endüstriyel tesisin yönetim ofislerinde çalışanların verimliliğini artırmak için aydınlatma tasarımı gerekiyor.
Solution:
Heavy Industry Production Facility:
Scenario: A steel mill is working with molten metal at high temperatures. Clear visibility and safe use of equipment are required.
Solution:
Outdoor Workspace:
Scenario: Night operations are carried out in an open area of a quarry. Large areas need to be illuminated.
Solution:
By using portable lighting towers, you can change the area when necessary.Discover the solutions. In this way, you will have a flawless sales process.
High-power LED floodlights effectively illuminate long distances.
IP66 class lighting fixtures that are resistant to external conditions such as wind and rain are preferred.
To learn about the impact of lighting design on production processes and discover the most suitable solutions, take a look at our industriyel lighting guide.
Proper lighting ensures a clear view of hazardous areas in the workplace and prevents accidents. In addition, homogeneous light distribution reduces distractions such as shadows and glare, which increases visual comfort and focus.
Lighting design must be carried out in accordance with international standards (ISO, EN) and local regulations. For example, there are specific lumen values and safety standards for each work area.
Sustainable lighting design is achieved through the use of energy-efficient LEDs, recyclable materials and intelligent control systems. In addition, designs that make maximum use of daylight are also important for sustainability.
Uniformly distributed lighting with sufficient light levels allows employees to focus more comfortably and reduces visual fatigue. This increases work performance and contributes to employee satisfaction.