Professional services for the design of production facilities, logistics centers, warehouses, parking garages, power plants and administrative buildings.
The design of industrial facilities and buildings is the foundation for the successful operation and development of any business. This process involves many stages, from site analysis to final operation of the facility. Each stage requires in-depth knowledge and experience to ensure the safety, functionality, efficiency, and durability of the structures.
Quality design minimizes risk, optimizes production processes, reduces operating costs, and promotes sustainable business development. The professional and comprehensive approach of DorProekt Institute guarantees that the designed facilities comply with modern standards and regulations, ensuring the functionality, reliability and competitiveness of the enterprise. This allows our clients to receive comprehensive and high-quality services at all stages of project implementation, minimizing risks and optimizing costs. We develop individual solutions, considering all requirements and wishes of the client, which allows us to create unique and effective projects.
Industrial facilities
Factories and plants, workshops and raw material processing lines.
Warehouse complexes
Logistics centers, cold storage facilities and temporary warehouses.
Energy facilities
Solar and wind plants.
Administrative Buildings
Office centers, administrative buildings of manufacturing companies and social infrastructure facilities (canteens, medical centers).
Designing industrial facilities requires a special approach that considers the specifics of production and technological processes. It is necessary to ensure the optimal placement of production lines, storage facilities, administrative buildings and other infrastructure to minimize logistics costs and increase the productivity of the enterprise.
Developing projects that meet all safety codes and standards. Use of advanced technologies and materials to ensure durability and reliability of structures.
Implementing energy efficient solutions to reduce operating costs. Use of renewable energy sources.
Minimizing the negative impact on the environment. Waste management and implementation of environmentally friendly technologies.
Designing facilities that consider possible changes in production processes. Ability to expand and modernize production capacity.
Organization of spaces and areas according to specific uses and flow separation requirements. Separation of flows for different categories of users and processes.
Study the requirements for the facility: Define what the facility should be, its functions, and operational requirements. Analyze and study the target audience, operational and business processes, and specific user needs. Formulate a conceptual plan, considering functional characteristics, which will become the basis for further design.
Site analysis: Selection of the optimal site for construction, considering all geographical and climatic features of the region. Geodetic and geological studies: Evaluation of soil structure and groundwater levels to ensure construction reliability and safety. Feasibility Study (FS): Determining the feasibility and profitability of the project, analyzing costs and forecasting revenues.
Development of architectural concepts: Designing the layout and exterior appearance of buildings that are in harmony with their surroundings. Planning solutions: Optimizing internal layouts to improve functionality and usability. Project Visualization: Create 3D models and drawings for a visual representation of the future facility.
Calculate load-bearing structures: Determine loads and develop structural solutions to ensure the safety and durability of buildings. Construction Materials Selection: Select materials that meet engineering requirements and ensure construction cost-effectiveness. Develop detailed drawings: Prepare detailed drawings and specifications for all structural elements.
Design water and sewer systems: Ensure uninterrupted water supply and efficient wastewater disposal. Power and Lighting: Develop power and lighting plans to ensure safety and comfort. Heating, Ventilation, and Air Conditioning (HVAC): Design systems that provide optimal climate conditions. Fire Protection and Automation Systems: Implementing advanced systems to prevent and extinguish fires and automate production processes.
Roads and access routes: Planning transportation infrastructure to ensure convenient access to the facility. Parking and Transportation Hubs: Create convenient and spacious parking areas. Utilities and Communications: Design water, sewer, power, and communications networks.
Environmental impact assessment: Analyzing potential environmental risks and developing measures to minimize them. Development of environmental protection measures: Implementing technologies that minimize harmful effects on nature.
Coordinate the project with government agencies: Ensure that the project meets all regulatory requirements. Obtain necessary licenses and permits: Full legal support in obtaining all required documents.
Even small errors can have serious consequences. First, they can lead to errors in structural calculations, reducing the safety of the facility and increasing the risk of accidents and collapse. Second, poor design of engineering systems, such as water, sewer, or power, can lead to operational failures and increased operating costs. Third, neglecting environmental issues can result in significant fines and environmental damage. Finally, improperly prepared permit documentation can cause construction delays and increase administrative costs. Therefore, our engineers always double-check their calculations and proposals during the design process.
Our company has been in the road construction market since 1960, and all this time design and supervision have been our main services. There are no regions in Armenia where our team of engineers has not carried out road projects, not to mention the highways that connect the whole country (e.g., the North-South Highway).
We are constantly improving and developing our expertise. For example, during project supervision, our team notes any comments that arise and takes this information into account in the next projects. In addition, our engineers regularly monitor technological changes, methodologies, new developments, and knowledge in the road industry and apply these to their projects. This enables us to provide our customers with the opportunity to build safer, more durable, cheaper, and higher quality roads, streets, and transport facilities.