A Sensor Network for Existing Residential Buildings Indoor Environment Quality and Energy Consumption Assessment and Monitoring: Lessons Learnt from a Field Experiment

Mathieu Bourdeau, David Werner, P. Basset, E. Nefzaoui
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引用次数: 4

Abstract

Enhancing residential buildings energy efficiency has become a critical goal to take up current challenges of human comfort, urbanization growth and the consequent energy consumption increase. In a context of integrated smart infrastructures, sensor networks offer a relevant solution to support building energy consumption monitoring, operation and prediction. The amount of accessible data with such networks also opens new prospects to better consider key parameters such as human behaviour and to lead to more efficient energy retrofit of existing buildings. However, sensor networks planning and implementation in general, and in existing buildings in particular, is a particularly complex task facing many challenges and affecting the performances of such a promising solution. In the present paper, we report on a field experiment of a sensor network deployment involving more than 250 sensors in three collective residential buildings in Paris region for the evaluation of a deep energy retrofit. More specifically, we describe the whole process of the sensor network design and roll-out and highlight the main critical aspects in such complex process. We also provide a feedback after several months of the sensor network operation and preliminary analysis of collected data. Reported results path the way for an efficient and optimized design and deployment of sensor networks for energy and indoor environment quality monitoring in existing buildings.
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基于传感器网络的既有住宅室内环境质量与能耗评价与监测:基于现场试验的经验
提高住宅建筑的能源效率已成为应对当前人类舒适、城市化发展和随之而来的能源消耗增加的挑战的关键目标。在集成智能基础设施的背景下,传感器网络为支持建筑能耗监测、运行和预测提供了相关的解决方案。这种网络的可访问数据量也为更好地考虑人类行为等关键参数以及对现有建筑进行更有效的能源改造开辟了新的前景。然而,一般来说,传感器网络的规划和实施,特别是在现有建筑中,是一项特别复杂的任务,面临着许多挑战,并影响着这种有前途的解决方案的性能。在本文中,我们报告了在巴黎地区的三个集体住宅建筑中部署250多个传感器的传感器网络的现场实验,以评估深度能源改造。更具体地说,我们描述了传感器网络设计和推出的整个过程,并强调了这一复杂过程中的主要关键方面。我们还在几个月的传感器网络运行和收集数据的初步分析后提供反馈。报告的结果为现有建筑中用于能源和室内环境质量监测的传感器网络的有效和优化设计和部署指明了道路。
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