Professional services in the design of heating networks, gas pipelines, electrical networks, water supply and sewerage systems and engineering nodes.
Skilled engineering systems design is the foundation for their reliable operation, which has a direct impact on the lives and safety of people, as well as the normal functioning of industrial and commercial facilities.
Once engineering systems have been commissioned, they are expected to operate for a long time without interruption and to be safe. But sometimes the opposite happens. Accidents, breakdowns, and lengthy repairs occur because of design flaws and inappropriate material selection. As a result, populations may temporarily lack essential resources such as water, and industrial plants may cease production. Engineering systems consist of a complex network of nodes and equipment, often located underground, making it difficult to detect and correct failures quickly. The requirements for the design of such systems are therefore of paramount importance.
Interconnected networks: engineering systems are always part of a larger system, such as a regional, urban or district infrastructure.
Storm water Existing infrastructure: engineering networks often involve retrofitting, modernizing, or extending existing systems.and drainage design
Site conditions: factors such as climate, geology, hydrology, landscape and the location of structures and facilities need to be considered.
Construction and maintenance requirements: factors such as densely populated areas, open spaces, access routes, existing traffic flows, etc. must be taken into account during the construction and maintenance phases.
End user needs: anticipating the potential growth of the user base and the future development prospects of the area.
Taking these and other factors into account when developing network projects is what sets our engineers apart. It is no coincidence that our projects are considered exemplary by some municipal organizations in Armenia.
Inspection of existing systems and optimisation of district heating schemes taking into account heat sources and energy saving factors. Design of centralised and decentralised district heating systems. Design of urban main lines, steam pipelines and local networks. Development of individual nodes in heating networks.
External water supply and sewerage networks. Water intake nodes. Pumping stations and water treatment plants, with the selection of modern equipment and the necessary calculations to ensure the reliability and long-term operation of the water supply network.
Design of urban networks and main lines. Relocation of existing gas networks from the design area. Design of replacement and emergency gas pipeline networks.
Development of external power supply projects for residential, commercial, office and industrial buildings. Projects that allow for the phased development of the power supply system to accommodate increasing loads in the long term without significant restructuring of the power grid facilities.
Design for the disposal of domestic and industrial wastewater and surface water. Design of storm water drainage systems to discharge to the municipal network or local treatment systems.
Our engineers gather information about the object, review existing documentation and explore possible options and solutions.
Visual representation of the main concept of operation and arrangement of key elements of the engineering system. This stage involves coordinating the integration of the system with other engineering systems, ensuring compatibility, and avoiding conflicts with other networks.
Preparation of a list of requirements, conditions, objectives, and tasks to be implemented in the project documentation.
Our engineers develop technical solutions for the installation of technical systems without detailed design and specifications. The design documentation serves as a basis for coordinating the placement of system components and communication routes with all parties involved in the creation of the engineering systems. This stage allows a reasonably accurate assessment of the engineering equipment budget and the preparation of a detailed commercial proposal.
The final stage involves the development of a comprehensive set of documents for the construction of the engineering system. The documentation includes detailed plans, specifications for engineering equipment and materials, and any necessary technical specifications.
It is important to remember that any ill-conceived and inefficient step or element in the design process can, at a minimum, result in the need to relocate networks and rebuild roads and, at a worst, cause serious problems and dangerous consequences in the operation of other engineering systems connected to the designed network. This is why our engineers always double check their calculations and proposals during the design process.
Our company has been in the road and transportation infrastructure construction market for more than 60 years, and during this time surveying has been an important part of our design activities. Having designed most of the roads in Armenia, we fully understand that accurate and reliable geospatial data is the cornerstone of successful road infrastructure development.
DorProekt Institute pays the utmost attention to the accuracy, reliability and efficiency of its geological survey services. We work closely with our clients to understand their specific needs and project objectives to ensure that our surveys meet their requirements. Whether it's a small road improvement project or a large-scale transportation infrastructure development, we have the experience and resources to provide quality solutions for geological, topographic, and archaeological surveys.