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New Methods and Models for the Ongoing Commissioning of HVAC Systems in Commercial and Institutional Buildings

Author: Nunzio Cotrufo
Publisher:
ISBN:
Category :
Languages : en
Pages : 163

Book Description
The performance of the HVAC systems in buildings tends to decrease after few years of operation. Equipment and sensors degradation lead to remarkable wastes of energy and money, as well as to the increase of building occupants thermal discomfort. HVAC ongoing commissioning (OCx), the continuation of HVAC commissioning well into the occupancy and operation phase of a building life, has been recognized as a cost-effective strategy to reduce energy wastes, equipment degradation and thermal discomfort. Building Automation Systems (BAS) collect and store huge amount of data for the purpose of building systems control. Those data represent a golden mine of information that can be used for the OCx of the building HVAC systems. This research work develops and validates new methods and models to be used for the OCx of HVAC systems using BAS measurements from commonly installed sensors. A Fault Detection and Identification (FD&I) method for chillers operation, and several virtual sensor models for variables of interest in Air Handling Units (AHUs) are presented. A FD&I method based on Principal Components Analysis (PCA) has been developed and used to detect abnormal operation conditions in an existing chiller operation and identify the responsible variables. The proposed FD&I method has been trained using measurements from summer 2009, and then used to detect abnormal observations from the following seven summer seasons (2010-2016). When the detected abnormal observations were replaced with artificially generated fault-free data, the proposed FD&I method did not detect any abnormal value along those artificially faulty-free variables. In summer 2016 the building operators changed several HVAC system operation set points, the FD&I method was effective in detecting almost 100% of the observations and properly identifying those variables whose set point was changed. For two different operation modes of an AHU several virtual outdoor air flow meters have been developed and the predictions have been compared against short-term measurements using uncertainty analysis and statistical indices. Three models have been investigated when the heat recovery coil was off. Results showed that the model with the simplest mathematical formulation was the most accurate, with the lowest value of uncertainty. When a heat recovery coil at the fresh air intake was on, two virtual flow meters have been developed to predict the outdoor air flow rate without the need of additional sensors. Both the models predicted the outdoor air ratio with good statistical indices: the Mean Absolute Error (MAE) was 0.015 for model a and 0.016 for model b. Three methods for the virtual measurement and/or calibration of air temperature and relative humidity have been developed for different AHU operation modes. These methods are different in terms of modelling strategy, information needed and technical knowledge required for implementation. For instance, results from the correction of the faulty measurements of the outdoor air temperature along a 24 hours period using Method A showed a high virtual calibration capability: MAE = 0.2°C and the Coefficient of Variation, CV-RMSE = 1.7%. A new definition of virtual sensor is proposed at the end of this research work. From a review of publications on virtual sensors for building application, the two most recurrent reason for the implementation of virtual sensor models (costs and practical issues) have been highlighted and integrated into the proposed new definition.

New Methods and Models for the Ongoing Commissioning of HVAC Systems in Commercial and Institutional Buildings

Author: Nunzio Cotrufo
Publisher:
ISBN:
Category :
Languages : en
Pages : 163

HVAC Commissioning Guidebook

Author: Maija Virta
Publisher: CRC Press
ISBN: 1000387631
Category : Technology & Engineering
Languages : en
Pages : 163

Book Description
Green buildings have become common in India and other countries in Asia. However, there is a concern regarding the performance of green buildings failing to meet the expectations of clients during the operation. One of the key reasons for this is poorly commissioned HVAC systems. In this publication we provide tools and knowhow for more efficient HVAC commissioning. It gives answers for four major questions: why commissioning is needed, how to perform proper commissioning, which key performance issues of common HVAC equipment need to be considered, and what kind of checklists are used during commissioning? It covers the entire commissioning process beginning with the owner’s project requirements and commissioning design reviews. Then, it explains procedures during installation and start-up of equipment followed by the functional performance testing, seasonal commissioning and 10 months’ operation review. This publication is developed by Indian Society of Heating, Refrigeration and Air Conditioning Engineers ISHRAE for Indian and Asian requirements in conjunction with the Federation of European HVAC Associations REHVA. The process steps described in this publication are in line with all major international building standards and green building certification schemes. Note: T&F does not sell or distribute the Hardback in India, Pakistan, Nepal, Bhutan, Bangladesh and Sri Lanka.

Whole Building Model Predictive Control with Optimization for HVAC Systems Utilizing Surface Level Weather Forecasts

Author: Trent Hilliard
Publisher:
ISBN:
Category :
Languages : en
Pages : 0

Book Description
The commercial and institutional sector of the building stock present a significant portion of energy consumption within Canada, and of that the majority is used for space conditioning. In order to meet reduction in greenhouse gas emission targets to combat climate change as outlined in the Paris Agreement, a reduction in energy use is required. Due to the expectations of a comfortable workspace and employee salaries outweighing operational costs of a building, technological changes are needed to reduce energy consumption, as dissatisfaction with environmental conditions impacts employee output. While many new technologies being developed are more efficient than existing HVAC solutions, they are often costly to retrofit into the existing building stock. One solution is to use the existing equipment in the building more efficiently through the use of advanced control algorithms that account for upcoming conditions, such as weather and occupancy. This form of predictive control can realize savings that are not possible when using reactive, or rule based control that is the current industry norm. This dissertation creates a new model predictive control (MPC) method for application to an institutional building using advanced surface level weather forecasts and multi-tiered implementation strategy. A simulation platform was created to test and evaluate various control strategies, followed by an experimental implementation at the operating building. A whole building optimization was conducted, with the surface level climatic forecasts used to ensure occupant comfort was maintained, via zone operative temperature, throughout the building zones. The simulation results show a reduction in total energy use of 2-3% (5-6% HVAC energy) annually, while the experimental results show a HVAC savings of 30% (29% for HVAC electricity and 63% for steam). Experimental results outperform the simulation results due to real building inefficiencies not captured in the simulation model benchmark assumptions and differing baseline control strategy. The research contributions of this dissertation include: i) the implementation of zone operative temperature as a whole building comfort variable ii) the usage of various models and objective functions to achieve improved energy and cost performance, iii) the introduction of emulated model predictive control for both model validation and for the morning start optimization of MPC, iv) the usage of surface level weather forecasts for predictive control, and v) the use of a randomForest regression model for buildings.

Improving the Cost Effectiveness of Building Diagnostics, Measurement and Commissioning Using New Techniques for Measurement, Verification and Analysis

Author: Steve Blanc
Publisher:
ISBN:
Category : Air conditioning
Languages : en
Pages : 206

Book Description

Handbook of Heating, Ventilation, and Air Conditioning

Author: Jan F. Kreider
Publisher: CRC Press
ISBN: 1420036467
Category : Technology & Engineering
Languages : en
Pages : 666

Book Description
Over the past 20 years, energy conservation imperatives, the use of computer based design aids, and major advances in intelligent management systems for buildings have transformed the design and operation of comfort systems for buildings. The "rules of thumb" used by designers in the1970s are no longer viable. Today, building systems engineers must

Principles of Building Commissioning

Author: Walter T. Grondzik
Publisher: John Wiley & Sons
ISBN: 0470112972
Category : Technology & Engineering
Languages : en
Pages : 146

Book Description
Commissioning is coming of age. Savvy building owners have adopted commissioning as an effective way to improve the facility acquisition process. Green building initiatives have embraced commissioning as a way of assuring quality in the delivery of high-performance buildings. This long-established quality control process for building mechanical systems is emerging as a broader construction management tool improving nearly all aspects of a project. What exactly is this thing called commissioning? Principles of Building Commissioning answers this fundamental question with the first all-inclusive, practical guide to the application of the principles of commissioning. The book clarifies the underlying philosophy of commissioning: the why, what, when, and who of this process. Shaped by the ASHRAE Guideline 0 view of the world of commissioning, Building Commissioning: Maps out the territory of commissioning Outlines its defining characteristics Explains its flow of processes Demystifies its documentation Making the fundamentals of commissioning accessible to all parties—building owners and operators, architects and engineers, users and suppliers—who may be called upon to join the commissioning team for a particular project, Building Commissioning serves as the professional's road map to the commissioning process, from the predesign phase through occupancy.

Evaluation of Commissioning Methods on Building Automation System of Dedicated Outdoor Air System

Author: Cheng, Xi
Publisher:
ISBN:
Category :
Languages : en
Pages :

Book Description
Building Automation Systems (BAS) are widely used in large commercial buildings to assist in the management of the building HVAC system. The purpose is to replace manual operation with automatic operation, improve indoor air comfort, and to reduce energy consumption through improved control strategies. One reason for lack of energy conservation for BASis that the settings in building automation system are not optimized according to the operation building system condition and load requirements. To address this issue, studies focused on commissioning for BAS, which can be called building re-tuning, have been developed by PNNL to provide optimized solutions for building operators. However, the building re-tuning solutions having been promoted are mainly for the Variable Air Volume system, problems may persist when the BAS for a different type of system needs to be commissioned, for example a Dedicated Outdoor Air System (DOAS). The air handling process for DOAS is very different from the process for a VAV system, despite the fact that DOAS is also widely implemented in commercial buildings.In order to address these issue, this project focuses on the evaluation of effectiveness of the common VAV BAS commissioning measures to the Dedicated Outdoor Air System. The main research method is modeling with the EnergyPlus program. Baseline models with DOAS and fan coil system have been built in this study, and 6 types of commissioning measures are implemented and compared with the base models. The energy performance for the commissioning measures are simulated in 16 different locations in the U.S. Finally, the analysis will be based on the comparison between the effectiveness of measures in different climates, between a VAV system and a DOAS, as well as comparison between DOAS unit and parallel cooling system.This document includes a literature review on commissioning and DOAS, a case study for commissioning a DOAS, and the energy modeling process for this study. The result of modeling and the detailed coding about the commissioning measures are also presented.

Principles of Heating, Ventilation, and Air Conditioning in Buildings

Author: John W. Mitchell
Publisher: John Wiley & Sons
ISBN: 0470624574
Category : Science
Languages : en
Pages : 629

Book Description
Heating Ventilation and Air Conditioning by J. W. Mitchell and J. E. Braun provides foundational knowledge for the behavior and analysis of HVAC systems and related devices. The emphasis of this text is on the application of engineering principles that features tight integration of physical descriptions with a software program that allows performance to be directly calculated, with results that provide insight into actual behavior. Furthermore, the text offers more examples, end-of-chapter problems, and design projects that represent situations an engineer might face in practice and are selected to illustrate the complex and integrated nature of an HVAC system or piece of equipment.

HVAC Control in the New Millennium

Author: Michael F. Hordeski
Publisher: CRC Press
ISBN: 9780824709150
Category : Technology & Engineering
Languages : en
Pages : 408

Book Description
Advances in personal computer control and sensor technology are leading the advances in building controls as we enter the new millennium. Pushing the technology are potentially high reductions in operating costs from increased operational efficiency. Building conditioning now accounts for about 20% of the total energy consumed in the U.S., so computer-optimized HVAC systems can make a major contribution in reducing our national energy use. This book examines how the latest advances in distributed technology will be used in commercial systems. Topics include the full scope of current and emerging HVAC control technologies, covering personal computer-based systems, expert systems, fiber optic infrared technologies, wireless communication, self-optimizing software sensors, micro technology, distributed direct digital control, control bus techniques and more.

Short-term Forecasting of the Electric Demand of HVAC Systems

Author: Mathieu Le Cam
Publisher:
ISBN:
Category :
Languages : en
Pages : 192

Book Description
Heating, Ventilation and Air Conditioning (HVAC) systems of large buildings have a high contribution to the electric grid peak demand. During those periods, electric utilities face important mismatch issues in power supply and demand. In the context of Demand Response (DR) programs, there is a need from building energy managers for tools to forecast the electric demand of HVAC systems to plan for fast-DR control strategies. This thesis contributes to the DR research field by proposing a method for multi-step forecasting of the electric demand of existing HVAC cooling systems on the short-term in large commercial and institutional buildings. Two forecasting methods are proposed: a cascade-based (global) method and a component-based method. The cascade-based method includes a sequence of forecasts of target variables. First, the air flow rate supplied by the AHUs is forecasted, followed by the cooling coils load, the cooling load of the whole building, and finally the electric demand of the primary cooling system is forecasted. The component-based method forecasts the electric demand of one component of the HVAC system such as a fan. Data-driven models are developed based on Building Automation System (BAS) trend data for electric demand forecasting of HVAC cooling system over the next six hours with a time-step of 15 minutes. The large amount of data collected through the BAS presents a gold mine of information which could be used for better understanding of the actual building operation and performance. Data mining techniques are used as pre-processing steps to help in the development of the forecasting models, for the selection of regressors, to identify typical daily profiles of the target variable and to better understand the operation of HVAC systems. Different sequences of preprocessing steps are tested and their impact on the forecasting performance is compared. The proposed forecasting methods are validated on two case studies: the Genomic research center on Loyola Campus of Concordia University and an office building located in Shawinigan-Sud (Québec). The thesis compares the forecasts with measurements, and discusses the quality of forecasting results.