Article Per Year (5 Year)
p-Index From 2021 - 2026
1.687
P-Index
This Author published in this journals
All Journal Jurnal Teknologi Informasi dan Ilmu Komputer IKRA-ITH Informatika : Jurnal Komputer dan Informatika KOMPUTA : Jurnal Ilmiah Komputer dan Informatika Indonesian Community Service and Empowerment Journal (IComSE) Journal of Economics, Management, Business And Accounting (JEMBA) International Journal of Informatics, Information System and Computer Engineering (INJIISCOM) Abdimas Indonesian Journal Jurnal Pengabdian Teknik dan Ilmu Komputer (PETIK) Civil Engineering Science and Technology (CEST)
Setiyadi, Angga
Unknown Affiliation
Religion Arts Civil Engineering, Building, Construction & Architecture Computer Science & IT Economics, Econometrics & Finance Education Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Law, Crime, Criminology & Criminal Justice Mechanical Engineering Social Sciences

Published : 13 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 1 Documents
Search
Journal : Civil Engineering Science and Technology (CEST)

 1 
Integrating Climate-Resilient Design And Life Cycle Costing In Green Building Projects: A Simulation-Based Assessment In Tropical Urban Areas Arifin, Samsul; Setiyadi, Angga; Purwanto, Purwanto; Sugiarto, Sugiarto
Civil Engineering Science and Technology Vol. 1 No. 2 (2025): October | CEST (Civil Engineering Science and Technology)
Publisher : Universitas Sains dan Teknologi Komputer

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51903/3cq4x038

Abstract

Tropical urban areas are increasingly exposed to the compounded impacts of climate change, including rising temperatures, high humidity, and increased rainfall, which pose challenges to the long-term performance, durability, and cost-efficiency of green buildings. This study integrates climate-resilient building design strategies with Life Cycle Costing (LCC) to evaluate both the technical performance and long-term economic feasibility of green building projects in tropical urban environments. A simulation-based building performance assessment was conducted to model key microclimatic variables, solar radiation, thermal loads, and precipitation, and their impacts on building envelope performance, passive cooling strategies, and water management systems. Simulation outputs were incorporated into an LCC framework to compare multiple design scenarios over a 30-year operational lifecycle. The results indicate that climate-resilient design alternatives reduce annual building energy demand by approximately 15–25% and lower total life-cycle costs by 10–18% compared to baseline green-building configurations, despite an initial capital cost increase of 5–12%. These findings demonstrate that investments in climate-adaptive strategies enhance long-term cost efficiency, operational stability, and resilience to extreme climate conditions in tropical cities. This study provides a coherent simulation-based framework that links environmental performance analysis with life-cycle economic evaluation, offering practical decision-support insights for architects, engineers, developers, and policymakers. By quantitatively revealing trade-offs between initial investment and long-term benefits, the research addresses a critical gap in current green building assessment practices and supports the development of financially viable and climate-resilient urban building solutions.
Co-Authors Agustia, Richi Dwi Agustia, Richi Dwi Chrismikha Hardyanto Dedeng Hirawan, Dedeng Dewi Kurniasih Dewi, S.Pd., M.Si, Kania Evita Dwiguna Sumitra, Irfan Eko Budi Setiawan Eko Budi Setiawan Hardyanto, Chrismika Heryandi, Andri Hetty Hassanah, Hetty Irawan Afrianto Mahardhika, Daffa Surya Maryati, Mari Maulana, Hanhan Muhammad Iqbal Muttaqin, Husni Rofiq Purwanto Purwanto Reza, Donny Samsul Arifin Sugiarto S Sutisnawati, Yayah Tatik Fidowaty Tubagus Gumilar, Ginanjar Wicaksono, Firmansyah Yulianto, Heri Dwi