Building management system: Difference between revisions

A Building Management System (BMS) is a computer-based control system installed in buildings that controls and monitors the building’s mechanical and electrical equipment such as ventilation, lighting, power systems, fire systems, and security systems. A BMS consists of software and hardware; the software program, usually configured in a hierarchical manner, can be proprietary, using such protocols as C-bus, Profibus, and so on, recently, however, new vendors are producing BMSs that integrate using Internet protocols and open standards such as DeviceNet, SOAP, XML, BACnet, LonWorks and Modbus.

Characteristics

A BMS is most common in a large building. Its core function is to manage the environment within the building and may control temperature, carbon dioxide levels and humidity within a building. As a core function in most BMS systems, it controls heating and cooling, manages the systems that distribute this air throughout the building (for example by operating fans or opening/closing dampers), and then locally controls the mixture of heating and cooling to achieve the desired room temperature. A secondary function sometimes is to monitor the level of human-generated CO2, mixing in outside air with waste air to increase the amount of oxygen while also minimising heat/cooling losses.

Systems linked to a BMS typically represent 40% of a building's energy usage; if lighting is included, this number approaches 70%. BMS systems are a critical component to managing energy demand. Improperly configured BMS systems are believed to account for 20% of building energy usage, or approximately 8% of total energy usage in the United States.

As well as controlling the building's internal environment, BMS systems are sometimes linked to access control (turnstiles and access doors controlling who is allowed access and egress to the building) or other security systems such as closed-circuit television (CCTV) and motion detectors. Fire alarm systems and elevators are also sometimes linked to a BMS, for example, if a fire is detected then the system could shut off dampers in the ventilation system to stop smoke spreading and send all the elevators to the ground floor and park them to prevent people from using them in the event of a fire.

BMSs are usually delivered as fully integrated systems and services through companies such as Siemens, Honeywell, Johnson Controls, Trend Controls, TAC(Now Schneider Electric), Trane and others. Independent services companies use solutions from companies such as Rockwell Automation, KMB systems, BBP Energies, Delta, Distech, Circon and KMC controls. New, more flexible solutions that link BMS systems to enterprise management software include SAP, OpenView, Archibus, Maximo and other smaller companies including Augusta Systems, GridLogix, Network Harbor, North Building Technologies Ltd., and Tridium.

Some of the newer systems allow control of plant such as boilers, air handling units and cooling towers to be controlled via a simple graphical interface in a web browser.

History

Building Management Systems have been employed for as long as commercial buildings have existed, whether this be through manpower loading coal into coal fired boilers or opening water pipe valves manually with the use of a handle so to enable heated water to flow through a radiator circuit. However, "BMS" as a phrase, is relatively new, the concept being introduced in the early 1970's (the terms BAS-building automation system, and EMS-energy management system are also used); the phrase has only really existed since the introduction of complex electronic devices that are capable of retaining data for the purposes of managing services such as power, lighting, heating and so on. It was the advent of the "modem", or "modulator-demodulator" which allowed analog signals to be digitized so that they could be communicated over long distances with a high degree of accuracy that spurred the development and deployment of modern BMS's. The Powers 570 was an example of such a system. Developed and marketed by Powers Regulator Company (later purchased by Siemans), it was deployed into the market in May 1970, as the model number suggests.

Before the modern, computer-controlled BMSs came into being, various electromechanical systems were in use to control buildings. Many facilities management offices had panels consisting of manual switches or more commonly, lights showing the status of various items of plant, allowing building maintenance staff to react if something failed. Some of these systems also include an audible alarm. Advancements in signal communications technology have allowed the migration of early pneumatic and "home run" hard wired systems, to modems communicating on a single twisted pair cable, to ultra fast IP based communication on "broad band" or "fiber optic" <http://en.wikipedia.org/wiki/Optical_fiber_cable> cable.

Functions of Building Management Systems:

To create a central computer controlled method which has three basic functions:

• controlling
• monitoring
• optimizing

the building’s facilities, mechanical and electrical equipments for comfort and safety.

A BMS system normally comprises:

• Power systems
• Illumination system
• Electric power control system
• Heating,Ventilation and Air-conditioning HVAC System
• Security and observation system
• Magnetic card and access system
• Fire alarm system
• Lifts, elevators etc.
• Plumbing system
• Burglar alarms
• Other engineering systems

Benefits of BMS

Building tenant/occupants

• Good control of internal comfort conditions
• Possibility of individual room control
• Increased staff productivity
• Effective monitoring and targeting of energy consumption
• Improved plant reliability and life
• Effective response to HVAC-related complaints

Building owner

• Higher rental value
• Flexibility on change of building use
• Individual tenant billing for services facilities manager
• Central or remote control and monitoring of building
• Increased level of comfort and time saving

Operations

• Low operating cost
• Efficient use of building resources and services
• High productivity
• Rapid alarm indication and fault diagnosis
• Good plant schematics and documentation

Maintenance Companies

• Ease of information availability problem diagnostics.
• Computerized maintenance scheduling
• Effective use of maintenance staff
• Early detection of problems
• More satisfied occupants

See also

• Building Automation
• Direct Digital Control
• SCADA

External links

• What BAS/DDC Does for Facilities
• Glossary (english/german)
• Resource for Building Management Systems
• Building Management System Information
• Building Management Systems in Pune