Occupancy – 1550nm Laser Diode K15D15F-3.00W – fiber coupler
Building code
It is possible to have multiple occupancies (or building uses) within one building. For instance, one may have a high-rise building, where the lower levels are occupied by retail stores, whereas the upper levels could be residential. Different occupancies within one building are separated by a fire barrier with a defined fire-resistance rating. It is common for a penetration, such as a fire door, to have a fire protection rating lower than the wall fire resistance rating in which it is installed. For example, a two-hour fire separation normally requires fire doors rated at 90-minutes.
For some high challenge occupancies the code requirements for an occupancy separation are more stringent than for other fire-barriers, even with an identical fire-resistance rating. In this case, an occupancy separation with a two-hour fire-resistance rating may not be able to de-rate its closures, such fire doors or firestops. For example, a two-hour rated high challenge fire wall requires 2 hr rated fire doors.
Firestops in occupancy separations are also more likely to be required not only an equal fire protection rating (a fire-resistance rating for closures) but must also provide a temperature rating, such that the components of the firestop systems, including the penetrants, are not permitted to rise in temperature above 140C (284F) on average or 180C (356F) on any single point, so as to lower the likelihood of auto-ignition on the unexposed side. In this manner, occupancy separations are treated similarly to fire walls, which are structurally stable in case of a fire, limiting fire-induced building collapse.
In this sense, there are two occupancies in most single-family homes: the garage and the living space of the home. Because automobile gasoline or petrol is flammable, an occupancy separation is often required between the two, should there be a vehicle fire. Water heaters and central heating are often placed in this space as well, for their use of natural gas, propane, or other fossil fuels in combustion. This also helps to prevent carbon monoxide poisoning.
Building utilization
The interior of a vacant building showing signs of vandalism and decay
Occupancy can also refer to the number of units in use, such as hotel rooms, apartment flats, or offices. When a motel is at full (100%) occupancy, a NO VACANCY neon sign is often turned on (though the sign often still says VACANCY at other times). Office buildings and apartments in particular aim for full occupancy, but if too many are built in an area this is often not the case. Completely vacant buildings can also attract crime, and are eventually targeted for redevelopment or at least renovation.
Occupancy can also mean the number of persons using an undivided space, such as a meeting room, ballroom, auditorium, or stadium. As with building codes, fire-protection authorities often set a limit on the number of people that can occupy a space, primarily because they must be able to leave the building through the available number of exits in a reasonable amount of time, without tripping or trampling each other in a panicked stampede, possibly blinded by smoke. The integrity of a structure may also be at stake, because too many people will put excessive weight and other forces, leading in some cases to a collapse.
An occupancy sensor is a device that can tell if someone is in a room, and is often used in home automation and security systems. These are typically more advanced than motion sensors, which can only detect motion.
Other meanings
In transport engineering, occupancy can refer to:
The number of passengers occupying a vehicle.
The percentage of time in which a detector is occupied by a vehicle.
The average number of particles occupying a state.
References
^ NFPA 5000 Building Construction and Safety Code 2006 Edition, Chapter 6 Classification of Occupancy, Classification of Hazard of Contents, and Special Operations, section 6.2.4
^ NFPA 5000 Building Construction and Safety Code 2006 Edition, Chapter 8 Fire-Resistive Materials and Construction, Table 8.7.2 Minimum Fire Protection Ratings for Opening Protectives in Fire Resistanceated Assemblies
^ NFPA 5000 Building Construction and Safety Code 2006 Edition / Chapter 8 Fire-Resistive Materials and Construction, Table 8.7.2 Minimum Fire Protection Ratings for Opening Protectives in Fire Resistanceated Assemblies
^ NFPA 5000 Building Construction and Safety Code 2006 Edition, section 8.3
See also
Building code
Construction
Fireproofing
Fire protection
Fire-resistance rating
Firestop
List of human habitation forms
Penetrant
Passive fire protection
Categories: Fire protection
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