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  • PublisherCIBSE
  • Product CodeGVH
  • Number of pages190
  • Publication DateOct 2009
  • ISBN9781906846008

GVH CIBSE Guide H: Building Control Systems

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GVH CIBSE Guide H: Building Control Systems

CIBSE Guide H: Building Control Systems

Good controls are essential for the safe and efficient operation of a modern building. A control system must not only keep the inside of a building comfortable for the occupants, it must also keep the HVAC plant operating efficiently, and be capable of two-way communication with personnel charged with its operation. The complexity of systems varies, but whatever the size of the structure, good controls maximise energy conservation and reduce harmful emissions.

Guide H covers all the key areas without relying too heavily on purely mathematical formulas, making it easy-to-read and accessible to all professions related to the design, construction and maintenance of a building. You cannot afford to ignore this vital ingredient to a building’s overall success, and this publication will ensure you have the information necessary to meet your control system requirements.

Contents:

1         Introduction: the need for controls

1.1         Overview of Guide H
1.2         Modern control systems
1.3         Sustainable development and the global environment
1.4         The indoor environment
1.5         Energy efficiency
1.6         Information technology and systems integration
1.7         Building operation
1.8         Benefits of a BMS
1.9         Summary
References

2         Control fundamentals

2.1         General
2.2         Control modes
2.3         Optimum start
2.4         Weather compensation
2.5         Stability and tuning
2.6         Artificial intelligence
2.7         Summary
References

3         Components and devices

3.1         Sensors
3.2         Actuators
3.3         Valves
3.4         Dampers
3.5         Motors
3.6         Pumps and fans
3.7         Control panels and motor control centres
3.8         The intelligent outstation
3.9         Summary
References

4         Systems, networks and integration

4.1         General
4.2         BMS development history
4.3         Networks
4.4         System integration
4.5         User interface
4.6         Summary
References

5         Control strategies for subsystems

5.1         Safety
5.2         Boilers
5.3         Chillers
5.4         Control of hydraulic circuits
5.5         Central air handling plant
5.6         Energy recovery
5.7         Mechanical ventilation
5.8         Variable air volume
5.9         Constant-volume room terminal units
5.10       Fan coil units
5.11       Dual duct systems
5.12       Chilled ceilings and beams
5.13       Heat pumps
5.14       Natural ventilation
5.15       Lighting controls
5.16       Summary
References

6         Control strategies for buildings

6.1         General
6.2         Operating modes
6.3         Design techniques
6.4         Whole-building HVAC systems
6.5         Case studies
6.6         Summary
References

7         Use of BMS-derived data

7.1         Energy monitoring
7.2         Fault reports and maintenance scheduling
7.3         Summary
References

8         Management issues