In addition to simulation consulting to optimize the design of energy and thermal comfort and lighting for the building, EDEEC performs other specialized consulting services such as consulting on the design of building acoustics, inspecting the ventilation system and its installation with the most reasonable technical equipment by CFD, simulating the cooling of outdoor units of VRV/VRF systems to improve operational efficiency, designing a zero-carbon eco-building (Zero Carbon Building).
EDEEC continuously updates the world’s advanced scientific and technical knowledge in the field of work simulation design to help investors achieve success with quality that surpasses convenience and efficiency. At the same time, EDEEC’s experts with many years of experience in Vietnam see through the landscape and expertise of service providers in the field of construction work in Vietnam, helping investors achieve their goals at a reasonable cost and time.
A living, working, studying, and resting environment that is guaranteed to have high-quality sound comforts will have higher labor productivity and relaxation comforts. This is also a guarantee of the outstanding quality of the construction. EDEEC uses engineering software to test and optimize designs that ensure acoustic comforts such as:
Office and residential spaces shall be soundproofed from each other or from external factors such as traffic and roads to achieve a sound comfort level according to Vietnamese or international technical standards.
Acoustic design consultancy for auditoriums, including theatres, concerts, cinemas, lecture halls, meeting rooms, and hotel halls, helps in calculating and controlling the clarity and reverberation time of the appropriate room according to function, capacity, and room volume, thereby optimizing the material shape design.
EDEEC uses the CFD ventilation optimization calculator to optimize the AHU installation for each room and the installation of equipment in the building.
Passive design support:
The design of natural ventilation will both help improve thermal comfort and air quality for spaces that are not cooled by air conditioning, by reducing the human perceived temperature by the evaporative effect; helping quickly carry excess heat from the surface of the structure to the outside and provide fresh air to the space. For example, if the wind speed in a living space increases from 0.05m/s to 0.8m/s, it will allow occupants to perceive the air temperature to drop by 3 degrees Celsius. EDEEC can control natural ventilation for the living space of every individual room or large space in buildings.
Zero-carbon projects will be an increasingly popular trend in the future, especially after Vietnam’s commitment to the United Nations Framework Convention on Climate Change COP26 in November 2021, Vietnam will achieve net-zero emissions by 2050.
EDEEC has enough resources and tools to support investors in achieving the goal of zero-emissions works in Vietnam. Along with that, EDEEC also consults to help the project achieve the goal of zero emissions with the most optimal investment cost in Vietnam.
EDEEC performs a re-examination of existing HVAC designs, focusing on input data and calculation methods to find possible solutions to minimize the capacity of the HVAC system and related systems, thereby minimizing the investment cost of technical systems.
Calculating HVAC requires meticulous and precise work, combined with new calculation tools and methods that are little known in Vietnam. When designing modern buildings, this is one of the most critical steps, but in Vietnam’s general design process, it is often done quickly and simply. We apply the latest internationally recognized and tested calculation tools and procedures to check the soundness and accuracy of the HVAC system under design.
Usually, outdoor units are arranged according to the distance recommended by the equipment manufacturers. However, in practice, there are many cases where the outdoor units are poorly cooled, resulting in a sharp increase in operating costs for the air conditioner in the summer. Even when the outdoor unit is overheated, it may stop working (above 50o C). Calculating heat dissipation to design an outdoor unit layout will help optimize building operation, reduce operating costs, and enhance thermal comfort.