Development and testing of an information monitoring and diagnostic system for large commercial buildings

Development and Testing of an Information Monitoring and Diagnostics System for Large Commercial Buildings Mary Ann Piette , Lisa Gartland, Satkartar Khalsa, Lawrence Berkeley National Laboratory, Berkeley, CA Peter Rumsey and Lee Eng Lock, Supersymmetry, Oakland CA and Singapore Anthony Sebald, University Of California, San Diego, CA Christine Shockman, Stanford University, Palo Alto, CA ABSTRACT Large commercial buildings generally do not operate at economically achievable levels of energy efficiency. Performance monitoring projects have shown whole-building energy savings of 20% or more through improved operation and maintenance practices. The opportunity for O&M savings is related to systemic problems associated with the lack of feedback available from current Energy Management and Control Systems (EMCS). Today’s EMCS are designed for control, with limited capabilities in sensing, archiving, data analysis, diagnostics, and data visualization. This paper discusses a multi- year, multi-institutional project to develop and demonstrate an Information Monitoring and Diagnostics System (IMDS). The system is designed to address common O&M problems and the needs of office building owners and property managers to address these problems. The IMDS includes about 50 points of whole-building and cooling plant data, plus a set of standard diagnostics plots to evaluate key performance metrics and curves. Five unique features of the project are (1) sophisticated building operators and engineers as users, (2) permanent installation, (3) high-quality sensing, (4) high-frequency data archives, and (5) top-down design (i.e., whole building, system, and component data). The system does not provide control functions. We review the installation and early results from the use of the IMDS. An office building demonstration site was selected because of the technical reputation and interest of the chief engineer and on-site operator. We also discuss the technology adoption process and decisions involved in such innovations. Introduction Buildings generally do not perform as well in practice as anticipated during the design stage. There are many reasons for this, including improper equipment selection and installation errors, the lack of rigorous commissioning and proper maintenance, and poor feedback on ongoing performance, including energy performance. These problems are prevalent in most building systems, and frequently found in dynamic systems such as heating, ventilation, cooling, and lighting controls. This paper summarizes results from the development and early field testing of an Information Monitoring and Diagnostic System (IMDS, see also Sebald & Piette 1997). The project was conceived to develop and introduce state-of-the-art information technology in buildings in order to substantially enhance building energy performance by continuously improving operations and maintenance (O&M). The project is being conducted by an interdisciplinary team to assess the current state of technology, develop a performance monitoring and diagnosis capability, and test it in real buildings. The system is being designed to improve operations in large Class A commercial office