IAQ Improvement by Smart Ventilation Combined with Geothermal Renewable Energy at nZEB

J. Rey-Hernández, A. Tejero‐González, E. Velasco-Gómez, J. F. S. José-Alonso, F. Rey-Martínez, Paula M. Esquivias
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引用次数: 1

Abstract

The building sector has the responsibility of being a generator of high carbon emissions, due to inefficient energy consumption in the last decades. For the European Union (EU) and the building sector, this pollution has generated a great impact and concern, establishing objectives in sustainability and energy efficiency in the short term. The EU, committed to energy sustainability, has established several guidelines, aiming at reducing carbon emissions. For this reason, European directives have been published to increase energy efficiency and sustainability in buildings, with EPBD 2018/844/EU being the most up-to-date regulation. This directive mainly focuses on reducing carbon emissions and increasing the efficiency of energy systems in buildings, but it also refers to the importance of establishing indoor air quality indices and smart management of ventilation systems. Before this directive was published, many of the implemented ventilation strategies did not consider the indoor air quality (IAQ) in their scope of established comfort parameters. Therefore, this study analyses the performance of the ventilation system, controlled smartly to cover the demand and the established IAQ rates via CO2 ppm, through renewable geothermal energy systems. This study has been carried out at the LUCIA building, a near Zero Energy Building (nZEB), which belongs to the University of Valladolid, Spain. This building stands out for being one of the most sustainable buildings in the world, according to LEED certification, ranking as the most sustainable building in the northern hemisphere. This building to study is equipped with cutting-edge energy systems, with zero carbon emissions. Several parameters have been analysed (air speed, enthalpy, air flow, temperature, humidity, kWh, climate data, etc.) enabling an energy optimisation of the combined systems. All the monitoring data obtained by the smart management have been analysed, providing favourable outcomes, due to the establishment of IAQ levels, according to the EPBD 2018/844/EU. After this study, the smart management of ventilation combined with removable geothermal energy can be exported as a strategy to reach the established IAQ levels through zero carbon systems.
智能通风与地热可再生能源相结合改善nZEB室内空气质量
由于过去几十年能源消耗效率低下,建筑行业有责任成为高碳排放的制造者。对于欧盟(EU)和建筑行业来说,这种污染已经产生了巨大的影响和关注,在短期内建立了可持续发展和能源效率的目标。致力于能源可持续性的欧盟已经制定了几项旨在减少碳排放的指导方针。出于这个原因,已经发布了欧洲指令,以提高建筑的能源效率和可持续性,EPBD 2018/844/EU是最新的法规。该指令主要侧重于减少碳排放和提高建筑能源系统的效率,但也提到了建立室内空气质量指标和通风系统智能管理的重要性。在该指令发布之前,许多已实施的通风策略并未将室内空气质量(IAQ)纳入其既定舒适参数的范围。因此,本研究通过可再生地热能源系统分析通风系统的性能,智能控制以满足需求和通过二氧化碳ppm建立的室内空气质量。这项研究是在LUCIA大楼进行的,这是一座接近零能耗建筑(nZEB),属于西班牙巴利亚多利德大学。根据LEED认证,这座建筑是世界上最具可持续性的建筑之一,被评为北半球最具可持续性的建筑。这座要研究的建筑配备了先进的能源系统,零碳排放。分析了几个参数(风速,焓,气流,温度,湿度,千瓦时,气候数据等),使组合系统的能源优化。根据EPBD 2018/844/EU,由于室内空气质量水平的建立,智能管理获得的所有监测数据都已进行了分析,并提供了有利的结果。通过本研究,结合可移动地热能的智能通风管理可以作为一种策略输出,通过零碳系统达到既定的室内空气质量水平。
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