A novel hydroponic roof system for the energy renovation of flat roofs in the Mediterranean area

IF 7.1 2区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY

Energy and Buildings Pub Date : 2026-04-15 Epub Date: 2026-02-06 DOI:10.1016/j.enbuild.2026.117124

V. Costanzo , M. Detommaso , G. Evola , F. Nocera , M. Mistretta , S. Longo

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引用次数: 0

Abstract

This study introduces and validates a novel Deep Water Culture hydroponic roof system as a building-integrated solution for enhancing indoor thermal conditions and energy efficiency in Mediterranean climates. Unlike conventional green roofs, the proposed system removes the soil layer and uses a water-based nutrient solution that simultaneously supports plant growth and acts as a thermal energy buffer. A full-scale prototype was experimentally tested on an existing office building in Catania (Italy); based on the experimental data, transient thermal modelling is then undertaken with TRNSYS to simulate the prototype with different roof configurations.

Results show that the hydroponic roof reduces indoor peak temperatures by up to 2.8 °C in the summer, increases them by 2.4 °C in the winter and shifts heat flux peaks by up to 16 h. Annual simulations indicate energy savings of 47% for space cooling and 51% for space heating, too. The DWC hydroponic roof demonstrates strong potential as a relatively lightweight, passive retrofit technology combining urban agriculture and building decarbonization.

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一种用于地中海地区平屋顶能源改造的新型水培屋顶系统

本研究介绍并验证了一种新的深水文化水培屋顶系统，作为一种建筑集成解决方案，用于改善地中海气候下的室内热条件和能源效率。与传统的绿色屋顶不同，该系统去除了土层，并使用水基营养液，同时支持植物生长并充当热能缓冲。全尺寸原型在卡塔尼亚（意大利）的一座现有办公楼上进行了实验测试；在实验数据的基础上，利用TRNSYS软件对不同顶板构型的原型进行了瞬态热模拟。结果表明，水培屋顶在夏季可将室内峰值温度降低2.8°C，在冬季可将室内峰值温度提高2.4°C，并将热通量峰值缩短16小时。年度模拟表明，空间制冷节能47%，空间供暖节能51%。DWC水培屋顶作为一种将城市农业和建筑脱碳相结合的相对轻便的被动式改造技术，展示了强大的潜力。

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来源期刊

Energy and Buildings 工程技术-工程：土木

CiteScore

12.70

自引率

11.90%

发文量

863

审稿时长

38 days

期刊介绍： An international journal devoted to investigations of energy use and efficiency in buildings Energy and Buildings is an international journal publishing articles with explicit links to energy use in buildings. The aim is to present new research results, and new proven practice aimed at reducing the energy needs of a building and improving indoor environment quality.