Net zero energy residential architecture in hot-humid climate regions: Design principles and feasibility analysis
高温多湿気候地域におけるネットゼロエネルギー住宅建築:設計原則と実現可能性分析 (AI 翻訳)
Hikmet Alim, Figen Beyhan
🤖 gxceed AI 要約
日本語
本論文は、トルコの高温多湿気候帯向けのネットゼロエネルギービルディング(NZEB)設計ガイドラインを提示する。アンタルヤを対象としたケーススタディでは、パッシブ・アクティブ戦略と太陽光発電システムを組み合わせ、DesignBuilderを用いたエネルギーシミュレーションによりエネルギー需要最小化と室内快適性を実現した。NZEB基準への適合を確認。
English
This paper presents a net zero energy building (NZEB) design guide tailored for Turkey's hot-humid climate zone, using Antalya as a case study. Passive and active strategies combined with rooftop PV panels are simulated with DesignBuilder to minimize energy demand while ensuring indoor comfort. The design achieves NZEB standard compliance.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
日本の高温多湿地域(九州・沖縄など)でのZEB推進に参考となる設計手法を提供。特にパッシブ戦略と太陽光発電の組み合わせは、日本の住宅建築にも応用可能。ただし、日本の建築基準や気候条件の違いに留意が必要。
In the global GX context
The study offers a replicable NZEB design approach for hot-humid climates, relevant to global building decarbonization efforts. It demonstrates passive design and PV integration that can inform ISSB-aligned disclosure on energy performance and transition planning.
👥 読者別の含意
🔬研究者:A methodology for NZEB design in hot-humid climates, validated with simulation, useful for comparative studies.
🏢実務担当者:Practical design steps and technology selection for net zero residential buildings in similar climates.
🏛政策担当者:Insights for developing building codes and incentives for NZEB adoption in hot-humid regions.
📄 Abstract(原文)
This study presents the development of a Net Zero Energy Building (NZEB) design guide specifically tailored for new buildings to be constructed in Turkey’s hot-humid climate zone, along with analyses and evaluations regarding the functioning of this guide. Within the scope of the study, a design guideline for NZEBs was created by establishing design decision steps involving passive design strategies, passive systems, active systems, and energy generation systems specific to the hot-humid climate zone. Antalya, a city located within this climatic region, was selected as the case study area. Based on the design decision steps outlined in the guide, a detached single-family residence was designed, and energy simulation analyses were conducted using the DesignBuilder software to evaluate the efficiency of the proposed systems. As a result of these evaluations, the most energy-efficient system for each parameter was selected, thereby minimizing the building’s energy demand while ensuring the necessary indoor comfort conditions. In the final stage, photovoltaic panels were installed on the roof of the building to meet the remaining energy demand through solar energy, achieving compliance with the NZEB standard.
🔗 Provenance — このレコードを発見したソース
- crossref https://doi.org/10.58559/ijes.1909528first seen 2026-07-01 05:47:38 · last seen 2026-07-01 05:50:27
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