Litcius/Paper detail

A simulation-based multi-objective genetic optimization framework for efficient building design in early stages: application for Vietnam's hot and humid climates

Thanh Truc Le Gia, Hoang-Anh Dang, Van Binh Dinh, Minh Quan Tong, Trung Kien Nguyen, Hong Hanh Nguyen, Dinh Quang Nguyen

2021International Journal of Building Pathology and Adaptation14 citationsDOI

Abstract

Purpose In many countries, innovation in building design for improving energy performance, reducing CO2 emissions and minimizing life cycle cost has received much attention for sustainable development. This paper investigates the importance of optimization tools for enhancing the design performance in the early stages of Vietnam's cooling-dominated buildings in hot and humid climates using an integrated building design approach. Design/methodology/approach The methodology of this study exploits the non-dominated sorting genetic algorithm (NSGA-II) optimization algorithm coupled with building simulation to research a trade-off between the optimization of investment cost and energy consumption. Our approach focuses on the whole optimization problem of thermal envelope, glazing and energy systems from preliminary design phases. The methodology is then tested for a case study of a non-residential building located in Hanoi. Findings The results show a considerable improvement in design performance by our method compared to current building design. The optimal solutions present the trade-off between energy consumption and capital cost in the form of a Pareto front. This helps architects, engineers and investors make important decisions in the early design stages with a large view of impacts of all factors on energy performance and cost. Originality/value This is one of the original research to study integrated building design applying the simulation-based genetic optimization algorithm for cooling-dominated buildings in Vietnam. The case study in this article is for a non-residential building in the north of Vietnam but the methodology can also be applied to residential buildings and other regions.

Topics & Concepts

Multi-objective optimizationGenetic algorithmSortingBuilding designEnergy consumptionBuilding envelopeSustainabilityComputer scienceInvestment (military)EngineeringEnvironmental economicsArchitectural engineeringThermalEconomicsMeteorologyBiologyElectrical engineeringPolitical sciencePhysicsMachine learningLawEcologyProgramming languagePoliticsBuilding Energy and Comfort OptimizationWind and Air Flow StudiesAdvanced Multi-Objective Optimization Algorithms