LEGIT UNIT 32 BUILDING MANAGEMENT SYSTEMS ASSIGNMENT HELP SERVICES AND ONLINE TUTOR'S ASSISTANCE FOR TOP-NOTCH SCORES!
Qualification - Pearson BTEC Level 5 HND in Construction and The Built Environment
Unit Name - Building Management Systems
Unit Level - Level 5
Unit Number - Unit 32
Unit Credit - 15
Unit code - J/615/1418
Also read: Dive into the diverse world of Engineering Materials within Unit 3: Engineering Science, Higher National Certificate in Engineering. Explore the nuanced Characteristics and Properties of Engineering Materials, laying the foundation for a deeper understanding of their role in engineering innovation and application.
Assignment Title - Building Management Systems
Learning Outcome 1: Evaluate emerging Building Management System technologies
Learning Outcome 2: Assess how a Building Management System can optimise cost and energy usage
Learning Outcome 3: Discuss the differences between Building Management Systems for domestic and non-domestic buildings
Learning Outcome 4: Specify a Building Management System suitable for a large domestic installation.
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Introduction
The earliest examples of Building Management Systems are found in large public and commercial premises. For the most part, these were used for automatic control of heating, cooling and, in some instances, security. However, Building Management System applications have broadened in scope and are becoming common in the domestic market, such as extra-low-voltage, intelligent lighting, which is already becoming the norm for many new homes (not exclusively those at the higher end of the market).
An environment controlled by a computer can provide, not only the optimum levels of heat, humidity and lighting for a building and its occupants, but also monitor energy use and contribute to energy conservation. Incorporating Energy Demand Management (EDM) into the Building Management System can facilitate automatic conformance with current energy usage regulations. The advent of the smart phone and low-cost apps has opened the door to truly remote control and monitoring of a building's environment and security. Heating and lighting can be switched on and set by the homeowner long before they reach their own front door.
The aim of this unit is to explore the rapidly growing range of services provided by Building Management System technology and assess its contribution to the renewable energy debate. There is also an opportunity to apply this research by carrying out a design of a Building Management System.
On successful completion the students will be conversant with current and emerging Building Management System technologies, will have developed the tools to evaluate the benefit of a Building Management System and apply their theoretical knowledge to a real-life installation.
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LO1 Evaluate emerging Building Management System technologies
Types of Building Management System:
Centralised system; a single Central Processing Unit (CPU)
Distributed Intelligence Systems: intelligent outstations with communications channels.
System integration:
Cloud and web applications, mobile apps, protocols.
Adaptive energy management:
Conditional logic, human intervention, energy policy management.
LO2 Assess how a Building Management System can optimise cost and energy usage
Control:
Regulating equipment performance, electrical voltage Close control of heating and cooling, and lighting Energy usage feedback, weather compensation.
Monitoring:
Develop a monitoring methodology
Develop methodology for cost and energy savings.
Sustainability
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LO3 Discuss the differences between Building Management Systems for domestic and non-domestic buildings
Requirements for domestic installations:
Smart homes.
Requirements for non-domestic installations Remote control through smart phone apps Environmental requirements
LO4 Specify a Building Management System suitable for a large domestic installation
Regulations and standards:
Health & safety Building regulations
Manufacturing certifications.
Client requirements Design:
Elements of Building Management System design Suitability of technologies
Protocols and component selection Commissioning process.
Proposal:
Proposal writing
Presentation formats and techniques.
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Pass
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Merit
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Distinction
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LO1 Evaluate emerging Building Management System technologies
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P1 Discuss the principles of Building Management System
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M1 Compare BMS technologies for a given application
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D1 Justify the use of BMS system in support of greater user control
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P2 Explain the different approaches to system integration
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LO2 Assess how a Building Management System can optimise cost and energy usage
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P3 Record, on a data sheet, energy costs and usage for a given set of buildings
P4 Select a Building Management System to optimise cost and energy usage
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M2 Analyse variations in energy costs and usage data between two given buildings; one which incorporates a Building Management System and one that does not
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LO2, LO3 and LO4
D2 Justify recommendations for a BMS based on a cost, improved building efficiency and improved performance
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P5 Justify the selection of a Building Management System in achieving greater sustainability through control and monitoring
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LO3 Discuss the differences between Building Management Systems for domestic and non-domestic buildings
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P6 Research functions, components, software and systems suitable for a large domestic installation
P7 Evaluate how a non- domestic Building Management System would differ from a domestic
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M3 Compare a BMS for a domestic installation and a non-domestic installation; in terms of cost, functionality, monitoring and design philosophy
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LO4 Specify a Building Management System suitable for a large domestic installation
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P8 Prepare a design proposal for a large domestic Building Management System installation
P9 Prepare costings for a large domestic Building Management System installation proposal
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M4 Analyse different strategies for a large domestic Building Management System installation with reference to cost analysis and manufacturers' data
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