Mexico Travel: Colima City - Hike Volcano of Fire

Passive Fire Protection

Structural fire protection

Fire protection in a building, offshore facility or a ship is a system that includes:

Active fire protection, which can include manual or automatic fire detection and fire suppression.

Passive fire protection, which includes compartmentalisation of the overall building through the use of fire-resistance rated walls and floors. Organization into smaller fire compartments, consisting of one or more rooms or floors, prevents or slows the spread of fire from the room of fire origin to other building spaces, limiting building damage and providing more time to the building occupants for emergency evacuation or to reach an area of refuge.

Fire prevention includes minimizing ignition sources, as well as educating the occupants and operators of the facility, ship or structure concerning operation and maintenance of fire-related systems for correct function, and emergency procedures including notification for fire service response and emergency evacuation..

Main characteristics

The aim for passive fire protection systems is typically demonstrated in fire testing the ability to maintain the item or the side to be protected at or below either 140 C (for walls, floors and electrical circuits required to have a fire-resistance rating) or ca. 550 C, which is considered the critical temperature for structural steel, above which it is in jeopardy of losing its strength, leading to collapse. This is based, in most countries, on the basic test standards for walls and floors, such as ASTM E119. Smaller components, such as fire dampers, fire doors, etc., follow suit in the main intentions of the basic standard for walls and floors. Fire testing involves live fire exposures upwards of 1100 C, depending on the fire-resistance rating and duration one is after. More items than just fire exposures are typically required to be tested to ensure the survivability of the system under realistic conditions.

To accomplish these aims, many different types of materials are employed in the design and construction of systems. For instance, common endothermic building materials include concrete and gypsum wallboard. During fire testing of concrete floor slabs, water can be seen to boil out of a slab. Gypsum wall board typically loses all its strength during a fire. The use of endothermic materials is established and proven to be sound engineering practice. The chemically bound water inside these materials sublimes. During this process, the unexposed side cannot exceed the boiling point of water. Once the hydrates are spent, the temperature on the unexposed side of an endothermic fire barrier tends to rise rapidly. Too much water can be a problem, however. Concrete slabs that are too wet, will literally explode in a fire, which is why test laboratories insist on measuring water content of concrete and mortar in fire test specimens, before running any fire tests. PFP measures can also include intumescents and ablative materials. The point is, however, that whatever the nature of the materials, they on their own bear no rating. They must be organised into systems, which bear a rating when installed in accordance with certification listings or established catalogues, such as DIN 4102 Part 4 or the Canadian National Building Code.

Passive Fire Protection measures are intended to contain a fire in the fire compartment of origin, thus limiting the spread of fire and smoke for a limited period of time, as determined the local building code and fire code. Passive fire protection measures, such as firestops, fire walls, and fire doors, are tested to determine the fire resistance rating of the final assembly, usually expressed in terms of hours of fire resistance (e.g., 1/3, 3/4, 1, 1 1/2, 2, 3, 4 hour). A certification listing provides the limitations of the rating.

Contrary to active fire protection measures, passive fire protection means do not typically require electric or electronic activation or a degree of motion. Exceptions to that particular rule of thumb are fire dampers (fire-resistive closures within air ducts, excluding grease ducts) and fire door closers, which must move, open and shut in order to work, as well as all intumescent products, which swell, thus move, in order to function.

Passive fire protection (PFP), as the name suggest remains silent in your coating system till the eventuality of a fire. There are mainly two types of PFP. Intumescent fire protection and vermiculite fire protection. In vermiculite fire protection, the structural steel members are covered with vermiculite materials, mostly a very thick layer. this is a cheaper options as compared to an intumescent one, but is very crude and aesthetically unpleasant. Moreover if the environment is corrosive in nature, then vermiculite option is not an advisable option, as there are possibility of water seeping into (because of the porous nature of vermiculite) and there is little scope to monitor the corrosion aspects. Intumescent fire proofing is a layer of paint which is applied along with the coating system on the structural steel members. The thickness of this intumescent coating is dependent on the steel section used. For calculation of DFT (dry film thickness) a factor called Hp/A (heated perimeter divided by cross sectional area) is used. Intumescent coatings are applied as an intermediate coat in a coating system (primer, intermediate and top/finish coat). Because of the relatively low thickness of this intumescent coating (350-700 micrometers), nice finish, and anti-corrosive nature, intumescent coatings are preferred aesthetically and performance-wise. it should be noted that in the eventuality of a fire, the steel structure will eventually collapse once the steel attains the critical core temperature (around 450 degrees Celsius or 850 degrees Fahrenheit). The PFP system will only delay this by creating a layer of char in between the steel and fire. Depending upon the requirement, PFP systems can provide fire ratings of up to 120 minutes and even more. PFP systems are highly recommended in infrastructure projects as they can save precious human lives and assets.

PFP in a building can be described as a group of systems within systems. An installed firestop, for instance, is a system that is based upon a product certification listing. It forms part of a fire-resistance rated wall or floor and this wall or floor forms part of a fire compartment, which forms an integral part of the overall fire safety plan of the building, which, as a whole, can also be seen as a system.

Examples

This I beam has a fireproofing material sprayed onto it as a form of passive fire protection.

fire-resistance rated walls

Firewalls not only have a rating, they are also designed to sub-divide buildings such that if collapse occurs on one side, this will not affect the other side. They can also be used to eliminate the need for sprinklers, as a trade-off.

Fire-resistance glass glass using multi-layer intumescent interlayer technology to meet ASTM-E119 test standards. The glass is optically clear, and can be used in 60 minute and 120 minute fire resistance rated assemblies. The International Building Codes (IBC) allows this glass to be installed as a fire-rated wall.

fire-resistance rated floors

occupancy separations (barriers designated as occupancy separations are intended to segregate parts of buildings, where different uses are on each side; For instance, apartments on one side and stores on the other side of the occupancy separation.

closures (fire dampers) Sometimes firestops are treated in building codes identically to closures. Canada de-rates closures, where, for instance a 2 hour closure is acceptable for use in a 3 hour fire separation, so long as the fire separation is not an occupancy separation or firewall. The lowered rating is then referred to as a fire protection rating, both for firestops, unless they contain plastic pipes and regular closures.

firestops

grease ducts (These refer to ducts that lead from commercial cooking equipment such as ranges, deep fryers and double-decker and conveyor-equipped pizza ovens to grease duct fans. In North America, grease ducts are made of minimum 16 gauge (1.6 mm) sheet metal, all welded, and certified openings for cleaning, whereby the ducting is either inherently manufactured to have a specific fire-resistance rating, OR it is ordinary 16 gauge ductwork with an exterior layer of purpose-made and certified fireproofing. Either way, North American grease ducts must comply with NFPA96 requirements.)

cable coating (application of fire-retardants, which are either endothermic or intumescent, to reduce flamespread and smoke development of combustible cable-jacketing)

spray fireproofing (application of intumescent or endothermic paints, or fibrous or cementitious plasters to keep substrates such as structural steel, electrical or mechanical services, valves, liquefied petroleum gas (LPG) vessels, vessel skirts, bulkheads or decks below either 140 C for electrical items or ca. 500 C for structural steel elements to maintain operability of the item to be protected)

fireproofing cladding (boards used for the same purpose and in the same applications as spray fireproofing) Materials for such cladding include perlite, vermiculite, calcium silicate, gypsum, intumescent epoxy, DuraSteel (cellulose-fibre reinforced concrete and punched sheet-metal bonded composite panels), MicroTherm

enclosures (boxes or wraps made of fireproofing materials, including fire-resistive wraps and tapes to protect speciality valves and other items deemed to require protection against fire and heatn analogy for this would be a safe) or the provision of circuit integrity measures to keep electrical cables operational during an accidental fire.

Regulations

The most important goal of PFP is identical to that of all fire protection: life safety. This is mainly accomplished by maintaining structural integrity for a time during the fire, and limiting the spread of fire and the effects thereof (e.g., heat and smoke). Property protection and continuity of operations are usually secondary objectives in codes. Exceptions include nuclear facilities and marine applications, as evacuation may be more complex or impossible. Nuclear facilities, both buildings and ships, must also ensure the nuclear reactor does not experience a nuclear meltdown. In this case, fixing the reactor may be more important than evacuation for key safety personnel.

Examples of testing that underlies certification listing:

Netherlands: NEN 6068

Germany: DIN 4102

United Kingdom: BS 476

Canada: ULC-S101

United States: ASTM E119

Each of these test procedures have very similar fire endurance regimes and heat transfer limitations. Differences include the hose-stream tests, which are unique to Canada and the United States, whereas Germany includes a very rigorous impact test during the fire for firewalls. Germany is unique in including heat induced expansion and collapse of ferrous cable trays into account for firestops, resulting in the favouring of firestop mortars, which tend to hold the penetrating cable tray in place, whereas "softseals", typically made of rockwool and elastomeric toppings, have been demonstrated in testing by Otto-Graf_institut to be torn open and rendered inoperable when the cable tray expands, pushes in and then collapses. Spin-offs from these basic tests cover closures, firestops and more. Furnace operations, thermocoupling and reporting requirements remain uniform within each country.

In exterior applications for the offshore and the petroleum sectors, the fire endurance testing uses a higher temperature and faster heat rise, whereas in interior applications, such as office buildings, factories and residential, the fire endurance is based upon experiences gained from burning wood. The interior fire time/temperature curve is referred to as "ETK" (Einheitstemperaturkurve = standard time/temperature curve) or the "building elements" curve, whereas the high temperature variety is called the hydrocarbon curve as it is based on burning oil and gas products, which burn hotter and faster. The most severe, and most rarely used, of all fire exposure tests is the British "jetfire" test, which has been used to some extent in the UK and Norway but is not typically found in common regulations.

Typically, during the construction of buildings, fire protective systems must conform to the requirements of building code that was in effect on the day that the building permit was applied for. Enforcement for compliance with building codes is typically the responsibility of municipal building departments. Once construction is complete, the building must maintain its design basis by remaining in compliance with the current fire code, which is enforced by the fire prevention officers of the municipal fire department. An up to date fire protection plan, containing a complete inventory and maintenance details of all fire protection components, including firestops, fireproofing, fire sprinklers, fire detectors, fire alarm systems, fire extinguishers, etc. are typical requirements for demonstration of compliance with applicable laws and regulations. In order to know whether or not one's building is in compliance with fire safety regulations, it is helpful to know what systems one has in place and what their installation and maintenance are based upon.

Changes to fire protection systems or items affecting the structural or fire-integrity or use (occupancy) of a building is subject to regulatory scrutiny. A contemplated change to a facility requires a building permit, or, if the change is very minor, a review by the local fire prevention officer. Such reviews by the Authority Having Jurisdiction (AHJ) also help to prevent potential problems that may not be apparent to a building owner or contractors. Large and very common deficiencies in existing buildings include the disabling of fire door closers through propping the doors open and running rugs through them and perforating fire-resistance rated walls and floors without proper firestopping. Example pictures of code violations can be seen here.

Common, accredited product certification and testing organisations

Europe:

-Testing: Efectis

Netherlands:

-Testing: Efectis Nederland

Germany:

-Testing: iBMB/ TU Braunschweig -Testing: BAM Berlin -Testing: MPA Dortmund

-Certification: Deutsches Institut fr Bautechnik (DIBt)

Canada: Underwriters' Laboratories of Canada (ULC)

United States: Underwriters Laboratories, FM Global

"Old" versus "new"

Generally, one differentiates between "old" and "new" barrier systems. "Old" systems have been tested and verified by governmental authorities including DIBt , the British Standards Institute (BSI) and the National Research Council's Institute for Research in Construction . These organisations each publish in codes and standards, wall and floor assembly details that can be used with generic, standardised components, to achieve quantified fire-resistance ratings. Architects routinely refer to these details in drawings to enable contractors to build passive fire protection barriers of certain ratings. The "old" systems are sometimes added to, through testing performed in governmental laboratories such as those maintained by Canada's Institute for Research in Construction, which then publishes the results in Canada's National Building Code (NBC). Germany and the UK, by comparison, publish their "old" systems in respective standards, DIN4102 Part 4 (Germany) and BS476 (United Kingdom). "New" systems are typically based on certification listings, whereby the installed configuration must comply with the tolerances set out in the certification listing. The United Kingdom is an exception to this, whereby certification, although not testing, is optional.

Countries where certification is optional

Fire tests in the UK are reported in the form of test results, but contrary to North America and Germany, building authorities do not require written proof that the materials that have been installed on site are actually identical to the materials and products that were used in the test. The test report is also often interpreted by engineers, as the test results are not communicated in the form of uniformly structured listings. In the UK, and other countries which do not require certification, the proof that the manufacturer has not substituted other materials apart from those used in the original testing is based on trust in the ethics or the culpability of the manufacturer. While in North America and in Germany, product certification is the key to the success and legal defensibility of passive fire protection barriers, alternate quality control certifications of specific installation companies and their work is available, though not a legislative or regulatory requirement. Still, the question of how one can be sure, apart from faith in the vendor, that what was tested is identical to that which has been bought and installed is a matter of personal judgment. The most highly publicised example of PFP systems which were not subject of certification and were declared inoperable by the Authority Having Jurisdiction is the Thermo-Lag scandal, which was brought to light by whistleblower Gerald W. Brown, who notified the Nuclear Regulatory Commission of the inadequacy of fire testing for circuit integrity measures in use in licensed nuclear power plants. This led to a congressional enquiry, significant press coverage and a large amount of remedial work on the part of the industry to mitigate the problem. There is no known case a similar instance for PFP systems which were under the follow-up regime of organisations holding national accreditation for product certification, such as DIBt or Underwriters Laboratories.

See also

Authority Having Jurisdiction

Pressurisation ductwork

Smoke exhaust ductwork

Grease duct

Fire test

Compartmentalisation

Endothermic

Fireproofing

Mortar (firestop)

Fire door

Intumescent

Firestop pillow

Drywall

Active fire protection

Fire protection

Fire protection engineering

Fire-resistance rating

Gerald W. Brown

Circuit integrity

References

^ www.pilkington.com/fire

External links

Wikimedia Commons has media related to: Passive fire protection

Alliance for Fire & Smoke Containment & Control

European Association for Passive Fire Protection

AIA Approved Fire Rated Glass & Glazing Course

Gtegemeinschaft Brandschutz im Ausbau (German PFP Association)

Passive Fire Protection Federation (PFPF)

PFPF definition of passive fire protection

International Firestop Council

Firestop Contractors International Association

Videos showing flammability of cables based on jacket rating

Fire Protection Safety Procedures

Treatise on Active and Passive Fire Protection from UK Government

Premier Passive Fire Protection

v  d  e

Fire protection

General

Passive fire protection   Active fire protection   Fire alarm system   Fire drill

Fire suppression

Fire extinguisher   Fire sand bucket   Fire sprinkler   Gaseous fire suppression   Fire blanket

Detection

Control panel   Heat detector   Pull station   Fire alarm box   Notification appliance   Smoke detector

Categories: Fire protection | Passive fire protection

I am China Crafts Suppliers writer, reports some information about brass sprinkler heads , garden sickle.

MORE ARTICLES:

Fire Protection Expert Bob G. Caputo Joins Fire Smarts Faculty Team to Provide Training Based on NFPA Standards
Nationally recognized fire protection expert, Bob G. Caputo, CFPS, joins the Fire Smarts Faculty Team to develop and deliver fire protection training utilizing his extensive knowledge of the NFPA standards and over 25 years of practical application in the industry.

How to Do Successful Crate Training Dogs
Crate training dogs are necessary for dogs as when dogs brought up, they can affect you as well as anyone can affect them Therefore, it is necessary to let dogs to live in the crates but crate training dogs is necessary for dogs as they can come to know about how to live in the crates only if they get crate training

Overweight or Underweight Dogs
Hunting Dogs working in the Field are usually in Top Physical Form Despite their athletic nature, hunting dogs can be overweight dogs and can fall into a sedentary nature if not provided with enough exercise Without an exercise program, these otherwise fit, energetic breeds can become lazy and inactive

Fire Protection Demonstration Using No-Burn® High Performace Coatings for New and Existing Construction Impresses Fire Service Participants
The event, representing a collaborative effort between The South Carolina State Fire Marshal's Office, The Midlands Fire Marshals Association, The South Carolina Fire Academy and No-Burn, Inc. of Wadsworth, Ohio was intended to provide fire professionals in the state with a better understanding of the life safety benefit of fire retardant and fire reactant coatings for residential, commercial and institutional applications. There are currently several proposals under consideration for inclusion in the building codes used throughout the United States for enhancing the fire protection of lightweight construction materials in single family homes. The use of intumescent coatings as a means of accomplishing this objective was the intent ...

An automatic sprinkler system based fire service system - Automatic sprinkler, fire fighting system - Fire Industry
Abstract: Over the years, our multi-storey buildings with indoor fire hydrant system is based. This article from the current fire situation and the actual effects of fire hydrant, fire hydrant maintenance of usage, historical conditions, and discussed the establishment of an automatic sprinkler Fire extinguishing system Based multi-room fire system, the need for construction.

Home Fire Sprinkler System Advantage
Fire sprinklers have been used in the protection of many business establishments But lately these fire protection systems have also gained popularity among home builders and home buyers alike

50th Anniversary of Chicago's Our Lady of Angels School Fire
On December 1, 1958, a fire broke out at the Our Lady of Angels Elementary School in Chicago, Illinois. The fire left 92 children and three nuns dead. Many others were seriously injured. This fire, which occurred 50 years ago, is still one of the deadliest school fires in the history of the United States.

On the fire doors in the engine room of the importance and the daily management - fire doors, fire material - Fire Industry
Focus: The new law implemented   Corporate social responsibility, most major league of Fire

Types of Dogs: Terrier, Toy, Non-Sporting, Herding, Miscellaneous
Terrier Dogs Terrier dogs were originally bred to hunt and control vermin and other predators such as rats, mice, foxes and ferrets This selective breeding for specific characteristic and traits gave rise to small, energetic breeds with very determined temperaments

Ultrafine Powder On The Fire In The Wood Processing Enterprises In The Application Of
Recent years, with the accelerated pace of national economic construction, local timber processing enterprises have sprung up like. However, economic benefits, while also becoming more prominent fire safety, fire accidents occur. In particular, built the fire in a residential area processing enterprises, local residents posed a direct threat to life, to the community to increase the discord of "notes." Therefore, to do the work of fire wood processing enterprises, reducing the insecurity of great significance.

General: fire damper and smoke damper settings approach - smoke fire dampers, fire material - Fire Industry
Fire Damper And smoke damper in the pilot project, including five: Test temperature sensor movement; close reliability test; salt spray test; air leakage test; resistance test. This study is mainly for the latter two tests.

Melaque Mexico Real Estate Selling Fast
Melaque real estate sales are on the rise as Canadians and Americans scramble to buy up any beach front property available. It is quickly becoming a very popular ex patriot community for snow birds from the north. Many northerners retire and live there all year around, while others just stay in their vacation homes for the winter months. Real estate has now become a hot commodity, with many buying up property looking to develop the next great Mexico retirement hot spot like Lake Chapala or Puerto Vallarta.

The Amazing Hotels of Atlantic City
Atlantic City is an amazing destination, especially if you are looking for a place to gamble Next to Las Vegas, casino-hotels and live entertainment abound in this city

Fire Protection & Investigation, LLC of Wyomissing PA Launches Fire Consulting Services for Businesses
Fire Protection & Investigation, LLC is a family-owned business that offers full-service fire consulting services. As part of their services, Fire Protection & Investigation offers consulting estimates, fire prevention education, training, and more.

Hotel Furniture: Designing For Profit
The look of the furniture and fittings in your hotel is extremely important These furnishings give your hotel a grand look and are the focus of your guests attention