@misc{f21b04253dd5431bbeb515a74bcc1235,
title = "Tackling the Giants: Applying Smart Labs Principles to Constant Air Volume Lab Buildings",
abstract = "Laboratories typically consume 3 to 10 times more energy than similarly sized commercial buildings, and as much as 50% of that energy is wasted by inefficient and poorly operating fume hoods and ventilation systems. One challenge faced by older laboratory buildings is the heating, ventilation, and air-conditioning systems serving many of these buildings. The older systems are usually constant air volume (CAV) systems that maintain constant ventilation rates that cause excess airflow and inefficient energy use. Variable air volume systems can be more efficient systems with sensors to detect the need for a change in volumetric flow rate; however; renovation of ventilation systems can create disruption to ongoing research and operations along with considerable up-front costs. When a Smart Labs program is implemented, an organization has a systems-based management approach that yields a high-performing laboratory building. As decarbonization continues as a priority for sites, buildings with CAV systems are difficult to address. This work centers around practical guidance for improving lab buildings with CAV. In conjunction with industry input on top technology solutions and best practices, recommendations will include performing a laboratory ventilation risk assessment in conjunction with robust retro-commissioning work, which is a crucial step in the Smart Lab process. By applying Smart Labs principles, the aging laboratory building stock of 153,343 (Lawrence Berkeley National Laboratory [LBNL] 2017), comprising roughly 500,000 lab spaces in the United States, can be brought to safe and high-performance operations.",
keywords = "building, constant air volume, energy efficiency, laboratory, SERF, Smart Labs, variable air volume",
author = "Rachel Romero and {Van Geet}, Otto and Tanna Tennyson",
year = "2024",
language = "American English",
series = "Presented at the 2024 Summer Study on Energy Efficiency in Buildings, 4-9 August 2024, Pacific Grove, California",
type = "Other",
}