top of page

Simulation Analysis of Architectural Environment

It analyzes building energy, airflow, light environment, indoor air quality, and indoor thermal environment from various angles to provide a professional and integrated green building design solution.

Energy Analysis

Energy analysis of buildings is essential for certification of international buildings such as LEED and Green Mark.

Airflow Analysis

기류분석.png

Airflow analysis is an analysis method that evaluates air flow, heat transfer process, wind strength, humidity, etc. outside and inside the building.

Analysis of Light Environment

빛환경분석.png

A lighting design is proposed by analyzing the type and size of the lighting window and the light environment according to the interior lighting zoning design through natural lighting simulation.

Analysis of Indoor Thermal Environment

실내 열환경 분석.png

Thermal comfort is an important factor that determines the health and productivity of those who return home.

Energy Analysis

Daan Solutions analyzes the dynamic energy of buildings through energy simulations such as IESVE and EnergyPlus.

Energy analysis of buildings is essential for certification of international buildings such as LEED and Green Mark.

Also, Energy analysis can optimize the passive and active design of buildings.

Building Loads and Energy Consumption

Optimize passive and active system design

Energy Independence Analysis

Airflow Analysis

Airflow analysis is an analysis method that evaluates air flow, heat transfer process, wind strength, humidity, etc. outside and inside the building. Airflow analysis assesses the suitability of the exterior shape and interior design of the building in the early stages of the design and further supports the design optimization process. In addition, CFD simulations analyze the airflow of mechanical ventilation to assess ventilation volume and air quality in theaters with high occupancy density or laboratories at risk of exposure to hazardous substances.

Natural ventilation modeling can help with site conditions, building mass, detailed building design, interior layout and space planning. This eliminates heat build-up in dense urban areas, improves thermal comfort and indoor air quality, and reduces the need for mechanical ventilation.

Indoor Air Quality Assessment

Assisted Ventilation (Natural Vent + Fans)

Wind Driven Rain

Natural Ventilation (External Flow/ Master planning)

Assisted Ventilation(Natural Vent + Fans)

Analysis of Light Environment

Natural lighting not only improves the quality of the indoor light environment but also reduces the use of artificial lighting. We propose a lighting design by analyzing the type and size of the lighting window and the light environment according to the interior lighting zoning design through natural lighting simulation.

Lighting design is a factor that affects the health, safety, and productivity of visitors. Evaluate the actual illumination level and the degree of glare with illumination simulation. This provides lighting design that matches the purpose of use of each building, such as offices, schools, hospitals, and others, and the activities of the guests.

Analysis of Natural Daylighting

Lighting Design Analysis

Solar Analysis

Analysis of Indoor Thermal Environment

Thermal comfort is an important factor that determines the health and productivity of those who return home.Energy simulations and CFD simulations evaluate the thermal comfort of natural ventilation, mechanical ventilation, and hybrid ventilation and propose an optimal design.

Thermal comfort

Rainwater Runoff

Room Temperature and Humidity Analysis

Ventilation comfort

bottom of page