Evaluating the Feasibility of Hybrid Ventilation in Educational Spaces: A Simulation Study in the Basque Country Climate

IF 1.4 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
Iñigo Rodríguez-Vidal, Jorge Otaegi, Unai Armengod
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Abstract

Abstract This paper delves into the examination of indoor comfort in classroom environments and its interplay with ventilation on human wellbeing in scenarios of varying indoor carbon dioxide concentrations. The assessment of these parameters was done according to the provisions outlined in the Spanish national Regulation of Thermal Installations in Buildings (RITE). This study also compares various ventilation strategies, namely natural, mechanical and hybrid ventilation, commenting the pros and cons of each method in the climate of the Basque Country, Spain. To do so, a classroom in the School of Architecture in the Basque Country was modelled in thermal simulation software. Simulations were carried out for full days in 10-minute intervals using Design Builder and considered three different exterior scenarios (a cold day, temperate day, and a warm one) and three different ventilation systems (natural, mechanical with simple flux, and hybrid). Two additional scenarios where added for control, one with no ventilation at all and another with a partial, constant, natural ventilation, like was done during the COVID-19 pandemic. Thus, the natural ventilation option was evaluated under four conditions (windows always closed, windows constantly open 15 %, COVID-19 mode, and windows operated by thermal sensation of the user). The mechanical system evaluated consisted of a constant flux ventilation for IDA 2 IAQ with an air flux of 12.5 L/s per person. The modelled hybrid system consisted in a combination of simple flux mechanical ventilation and open windows and doors under some particular conditions. An occupancy rate of 50 % of the theoretical maximum occupancy of the classroom and a scheduled heating operation were considered. This article presents the CO2 concentration, energetic balance and thermal comfort results obtained in the simulation and compares between the different scenarios. The results showed that the hybrid ventilation system was able to effectively control indoor air quality, providing a healthy and comfortable environment for occupants. The hybrid system demonstrated improved energy efficiency compared to the natural ventilation system, while maintaining an acceptable indoor air quality. Overall, the results of this study highlight the importance of considering hybrid ventilation in educational spaces in the northern Basque Country climate. The study provides valuable insights for building design and operation, especially for renovation of existing schools and educational facilities that lack any means of mechanical ventilation, showing some of the potential for hybrid ventilation to improve indoor air quality and energy efficiency.
评估教育空间混合通风的可行性:巴斯克地区气候的模拟研究
摘要:本文深入研究了不同室内二氧化碳浓度下教室环境的室内舒适度及其与通风对人体健康的相互作用。这些参数的评估是根据西班牙国家建筑热装置法规(RITE)的规定进行的。本研究还比较了各种通风策略,即自然通风、机械通风和混合通风,并评论了每种方法在西班牙巴斯克地区气候下的优缺点。为了做到这一点,巴斯克地区建筑学院的一个教室在热模拟软件中建模。使用Design Builder以10分钟的间隔进行了一整天的模拟,并考虑了三种不同的外部场景(寒冷的一天,温和的一天和温暖的一天)和三种不同的通风系统(自然的,机械的,简单的通量和混合)。另外增加了两种情况作为控制,一种完全没有通风,另一种是部分、持续、自然通风,就像在COVID-19大流行期间所做的那样。因此,自然通风选项在四种情况下进行了评估(窗户总是关闭,窗户不断打开15%,COVID-19模式和用户热感觉操作的窗户)。所评估的机械系统包括IDA 2室内空气质量的恒定通量通风,空气通量为12.5 L/s /人。模拟的混合系统包括简单的通量机械通风和在某些特定条件下打开门窗的组合。考虑了教室理论最大入住率的50%和预定的供暖操作。本文给出了模拟得到的CO2浓度、能量平衡和热舒适的结果,并对不同场景进行了比较。结果表明,混合通风系统能够有效控制室内空气质量,为居住者提供健康舒适的环境。与自然通风系统相比,混合系统提高了能源效率,同时保持了可接受的室内空气质量。总的来说,这项研究的结果强调了在巴斯克北部地区气候的教育空间中考虑混合通风的重要性。该研究为建筑设计和运营提供了宝贵的见解,特别是对缺乏任何机械通风手段的现有学校和教育设施的改造,显示了混合通风改善室内空气质量和能源效率的一些潜力。
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来源期刊
Environmental and Climate Technologies
Environmental and Climate Technologies GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
3.10
自引率
28.60%
发文量
0
审稿时长
16 weeks
期刊介绍: Environmental and Climate Technologies provides a forum for information on innovation, research and development in the areas of environmental science, energy resources and processes, innovative technologies and energy efficiency. Authors are encouraged to submit manuscripts which cover the range from bioeconomy, sustainable technology development, life cycle analysis, eco-design, climate change mitigation, innovative solutions for pollution reduction to resilience, the energy efficiency of buildings, secure and sustainable energy supplies. The Journal ensures international publicity for original research and innovative work. A variety of themes are covered through a multi-disciplinary approach, one which integrates all aspects of environmental science: -Sustainability of technology development- Bioeconomy- Cleaner production, end of pipe production- Zero emission technologies- Eco-design- Life cycle analysis- Eco-efficiency- Environmental impact assessment- Environmental management systems- Resilience- Energy and carbon markets- Greenhouse gas emission reduction and climate technologies- Methodologies for the evaluation of sustainability- Renewable energy resources- Solar, wind, geothermal, hydro energy, biomass sources: algae, wood, straw, biogas, energetic plants and organic waste- Waste management- Quality of outdoor and indoor environment- Environmental monitoring and evaluation- Heat and power generation, including district heating and/or cooling- Energy efficiency.
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