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El. knyga: Sustainability and Health in Intelligent Buildings

(Special Appointment Professor, Faculty of Engineering, University of Ottawa, Ottawa, Ontario, Canada)
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Sustainability and Health in Intelligent Buildings presents a comprehensive roadmap for designing and constructing high-performance clean energy-efficient buildings, including intelligence capabilities underpinned by smart power, 5G and Internet-of-Things technologies, environmental sensors, intelligent control strategies and cyber-physical security. This book includes a special emphasis on health pandemic resiliency that discusses strong engineering control strategies to respond and recover from infectious diseases like COVID-19.

Sections cover the foundational aspects of healthy buildings, with a special emphasis on assessing indoor environmental qualities. In addition, it introduces the necessary principles that assist engineers and researchers in understanding and designing buildings that meet health and sustainability goals.

  • Describes the basic elements of building a digital ecosystem, along with informatics-driven performance architecture
  • Features various models used in the design of controllers for major systems such as HVAC and lighting
  • Explores the notion of building bioelectromagnetics to ensure health and safety from human exposure to EM fields
Preface xi
Acknowledgments xv
Abbreviations xvii
1 Building as a system
1(32)
1.1 Sustainability by closing the loop
1(4)
1.2 Intelligence for sustainability and health
5(2)
1.3 Hierarchy of buildings development
7(5)
1.4 Duality of sustainability and health
12(4)
1.5 Building as a responsive and adaptive system
16(2)
1.6 Building as a human-cyber-physical system (HCPS)
18(4)
1.7 Resilience and systems thinking
22(2)
1.8 Programs, standards, and rating systems
24(9)
References
30(3)
2 Building as a living system
33(26)
2.1 Building as a living organism
33(2)
2.2 Foundations of healthy buildings
35(2)
2.3 Indoor air quality (IAQ)
37(3)
2.4 Healthy ventilation
40(3)
2.5 Thennal comfort
43(3)
2.6 Acoustic comfort
46(2)
2.7 Visual comfort
48(3)
2.8 Water quality
51(1)
2.9 Electromagnetic environment
52(1)
2.10 Safety and security
53(6)
References
54(5)
3 Building as an energy system
59(36)
3.1 Energy efficiency through a sustainability lens
59(5)
3.2 Bioclimatic architecture
64(1)
3.3 Life-cycle energy consumption
65(4)
3.4 Distributed energy resources (DER)
69(8)
3.5 Energy storage systems
77(2)
3.6 Building as a charging station
79(2)
3.7 Electrification and decarbonizalion
81(2)
3.8 Electricity in buildings
83(3)
3.9 Electrical load estimation
86(1)
3.10 Clean electricity
87(3)
3.11 Switching between AC and DC
90(5)
References
91(4)
4 Building as a smart system
95(34)
4.1 Sustainability through smartness and intelligence
95(2)
4.2 Electrical grid
97(3)
4.3 Smart building loads
100(3)
4.4 Grid-interactive efficient buildings
103(2)
4.5 Smart load management strategies
105(3)
4.6 5G digital ecosystem
108(3)
4.7 High-performance wireless
111(2)
4.8 Tactile internet (TI)
113(2)
4.9 Internet-of-things (IoT)
115(3)
4.10 Wireless sensor and actuator networks (WSAN)
118(2)
4.11 Internet of energy (IoE)
120(1)
4.12 Smart urban mobility
121(2)
4.13 Net-zero energy buildings (NZEB)
123(6)
References
127(2)
5 Building as a human-cyber-physical system
129(32)
5.1 Digital transformation
129(2)
5.2 Digital sustainability
131(4)
5.3 User experience (UX)
135(2)
5.4 Ambient intelligent architecture
137(2)
5.5 Computational intelligence
139(3)
5.6 Big data
142(3)
5.7 Artificial IoT (AIoT)
145(2)
5.8 Building as a human-cyber-physical platform
147(2)
5.9 Building information modeling (BIM)
149(1)
5.10 BIM-digital twin-driven sustainable design
150(3)
5.11 Surveillance and privacy
153(2)
5.12 Security in human-cyber-physical systems
155(2)
5.13 BIM, digital twin, and blockchain
157(4)
References
158(3)
6 Building as a control system
161(30)
6.1 Control systems engineering
161(3)
6.2 Thermal modeling approaches
164(2)
6.3 Analog control systems
166(3)
6.4 Digital control systems
169(2)
6.5 Adaptive control systems
171(1)
6.6 Intelligent control systems
172(2)
6.7 Building automation and control systems (BACS)
174(3)
6.8 HVAC control
177(3)
6.9 Lighting control
180(4)
6.10 Research trends
184(7)
References
188(3)
7 Building as a bioelectromagnetics ecosystem
191(24)
7.1 Nonionizing electromagnetic fields
191(2)
7.2 Interaction mechanisms
193(3)
7.3 Safety standards and protection guidelines
196(3)
7.4 Electromagnetic living environment
199(2)
7.5 Biological and health effects
201(2)
7.6 Electromagnetic safely in the built environment
203(3)
7.7 Design for minimum exposure
206(4)
7.8 Electromagnetic risk management
210(5)
References
212(3)
8 Building as a hygiene system
215(24)
8.1 Historically thinking
215(2)
8.2 Infectious disease outbreaks
217(1)
8.3 Routes of transmission
218(4)
8.4 Infection control strategies
222(1)
8.5 Design considerations for indoor air quality
223(4)
8.6 Environmental electromagnetic disinfection
227(4)
8.7 Pandemic intelligent solutions
231(8)
References
234(5)
9 Urbanization as an intelligent system
239(20)
9.1 Urban history
239(2)
9.2 Urban intelligence
241(2)
9.3 Urban sustainability
243(2)
9.4 Urban health
245(2)
9.5 Urban adaptability
247(2)
9.6 Urban therapy
249(2)
9.7 Urban knowledge
251(1)
9.8 Intelligence for pandemic response
252(2)
9.9 Intelligence for poslpandemic experience
254(5)
References
255(4)
Index 259
Riadh Habash is a special appointment professor at the Faculty of Engineering, University of Ottawa, Canada. He has professional, teaching, and research expertise in multiple areas including energy literacy, mechatronics, bioelectromagnetics, and control systems. Over the years, he has acquired an interest in the scholarship of teaching and learning by initiating activities that provide an engaging environment for inquiring minds through collaboration with industry to develop entrepreneurial projects and educational resources. He is the recipient of the National Wighton Fellowship and several institutional awards. Academically, he has published seven books, five book chapters, and more than 100 research articles.
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