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1
Abdullah, Anton, Wildan Nugraha, and Kusno. "Fire Hazard Prevention and Protection Through Active Protection System." Airman: Jurnal Teknik dan Keselamatan Transportasi 5, no. 2 (December 31, 2022): 104–12. http://dx.doi.org/10.46509/ajtk.v5i2.293.
Повний текст джерелаАнотація:
This research was conducted to determine the availability and adequacy of the active protection system in the Palembang Aviation Polytechnic area. The Active Protection System is limited to fire alarm systems and detectors. The type of research used is qualitative analysis with an observational approach to analyze fire alarms and detection systems as active protection at the Palembang Aviation Polytechnic. Data collection is carried out by observation and interview. Furthermore, a gap analysis method is carried out to compare the availability of fire alarm and detection systems installed in each building, compared to the expected conditions by applicable regulations, so that gaps can be known from the fire protection system in the building in question. The next step is to decide on the availability and adequacy of the building's fire alarm and detection system and provide recommendations that the manager of the Palembang Aviation Polytechnic may carry out. The results of the application of the fire alarm analysis in the main building are 0% with the inappropriate category, and the average in the study program building is 96.57% with a good category. The implementation of the detection system in the main building is 0% with the inappropriate category (no fire alarm and detection system installed), and the average in the study program building is 97.5% with a good category. Suggestions according to the priority scale are that managers make policies on establishing, maintaining, inspecting, and evaluating active fire protection systems regularly.
2
Han, Wuyi. "Difficulties and Countermeasures on Fire Protection Design of Large Commercial Building." World Construction 4, no. 4 (December 28, 2015): 27. http://dx.doi.org/10.18686/wcj.v4i4.4.
Повний текст джерелаАнотація:
<p>Large commercial building has gradually become the main trend in commercial buildings recently. In current national fire protection design specification, the lacking of targeted measures for the fire protection design on such building will bring obsession to building designers during the specific engineering design, and it can easily lead to non-compliance with national specification. Therefore, we propose relevant state departments to publish state technical standard on fire control against fire protection design of large commercial building. Based on the collected information, data and conducted experiments, standardize the fire protection design of such buildings, will effectively avoiding formation of major fire potential. </p>
3
Han, Wuyi. "Difficulties and Countermeasures on Fire Protection Design of Large Commercial Building." World Construction 4, no. 4 (December 28, 2015): 27. http://dx.doi.org/10.18686/wc.v4i4.14.
Повний текст джерелаАнотація:
<p>Large commercial building has gradually become the main trend in commercial buildings recently. In current national fire protection design specification, the lacking of targeted measures for the fire protection design on such building will bring obsession to building designers during the specific engineering design, and it can easily lead to non-compliance with national specification. Therefore, we propose relevant state departments to publish state technical standard on fire control against fire protection design of large commercial building. Based on the collected information, data and conducted experiments, standardize the fire protection design of such buildings, will effectively avoiding formation of major fire potential. </p>
4
Robinson, James. "Building your fire protection systems." Journal of Chemical Health and Safety 20, no. 3 (May 2013): 36. http://dx.doi.org/10.1016/j.jchas.2013.03.178.
Повний текст джерела
5
Amrullah, Amrullah, Erniati Erniati, and Muhammad Chaerul. "BUILDING PROTECTION DESIGN IN FIRE HAZARD PREVENTION (CASE STUDY: FAJAR UNIVERSITY BUILDING (UNIFA) MAKASSAR)." astonjadro 11, no. 1 (December 16, 2021): 50. http://dx.doi.org/10.32832/astonjadro.v11i1.5669.
Повний текст джерелаАнотація:
<p>The growth and arrangement of existing buildings are sometimes not balanced with the readiness of building and urban infrastructure. The main danger of fire for humans is poisoning due to inhalation of smoke, about 75% of human deaths in burning buildings are caused by smoke, about 25% of deaths are caused by heat generated by fire. To carry out the functions and uses, the building consists of several systems, the system consists of sub-systems that form integrally in a single unit. Fire prevention is one of the building systems, which aims to save lives. Fire prevention is one aspect of building safety. To find out and assess the level of reliability of a building against fire hazards, a problem formulation is formulated, namely How to design a fire prevention analysis that can be applied to buildings. The conclusion that can be drawn regarding the design of a fire prevention inspection system and its application is, the design of a building reliability inspection system in fire prevention is one of the tools in assessing and inspecting buildings for fire prevention measures in buildings. Inspection of building reliability in fire prevention is carried out at the smallest level or on building components, can provide a more detailed assessment/inspection of the fire prevention system, Assessment of Rescue Means Components, Assessment of Active Protection Components, Passive Protection Assessment Means.</p>
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Monika, Fanny, Siti Solihah, Hakas Prayuda, Lilis Tiyani, and Bella Lutfiani Al Zakina. "Visual Assessment pada Bangunan Gedung Terhadap Sistem Keamanan Kebakaran." Bulletin of Civil Engineering 2, no. 1 (June 7, 2022): 17–22. http://dx.doi.org/10.18196/bce.v2i1.12853.
Повний текст джерелаАнотація:
Fire is a hazard caused by an uncontrollable flame, resulting in both material and moral losses. Fire problem occurs when firefighting equipment is often ignored during the construction planning of a building, for that we need to check and supervision the fire safety system in multilevel buildings. The purpose of this research is to determine the level of reliability of building fire safety system in Forriz Hotel Yogyakarta and is expected to be a refence fire protection system in other commercial buildings in Yogyakarta. this research used a method by direct observation on fire protection system with reference to fire safety inspection guidelines for building (Pd-T-11-2005-C). The result of this research is reliability value of building safety for each component consisting of the value of completeness of the site of 22,7% (less), means of the rescue of 16,4% (less), active protection of 15,1% (less), passive protection of 24,3 (less). The calculation results for the reliability of the building of Hotel Forriz Yogyakarta is 78,5% or in the Enough category. Based on the research result Hotel Forriz Yogyakarta cannot be used for reference to the implementation of the fire protection system in buildings.
7
Takács, Lajos Gábor. "Fire Protection Aspects of Low-Energy Buildings." Advanced Materials Research 899 (February 2014): 543–51. http://dx.doi.org/10.4028/www.scientific.net/amr.899.543.
Повний текст джерелаАнотація:
Structures of low energy buildings and passive houses are different from traditional buildings: thick thermal insulations often made of combustible materials -, lightweight skeleton frame loadbearing structures, timber frame constructions are common. Based on laboratory tests of lightweight building products, building structure design principles and the first fire events in passive houses, this article summarizes the main fire protection problems of passive house structures and gives recommendations for appropriate construction of these houses in fire protection aspects.
8
Gašpercová, Stanislava, and Linda Makovická Osvaldová. "Fire Protection in Various Types of Wooden Structures." Civil and Environmental Engineering 11, no. 1 (May 1, 2015): 51–57. http://dx.doi.org/10.1515/cee-2015-0007.
Повний текст джерелаАнотація:
Abstract Design of new modern systems for low energy efficient construction in a passive, zero standard or energy-autonomous buildings, as well as the increased popularity of solid wood construction means intervention into the very structure of its statics, building physics, but also fire properties. Some prototype design solutions are not verified whether the tests, by good computational analysis or verification of long-term use of the building. In the context of changing standards in building design, new approaches are needed. If in wooden buildings the potential risk of fire is higher than other buildings, we need special methods, materials and practical skills.
9
Findik, Fehim. "Structural materials, fire and protection." Heritage and Sustainable Development 4, no. 2 (November 22, 2022): 134–44. http://dx.doi.org/10.37868/hsd.v4i2.114.
Повний текст джерелаАнотація:
Any material that can be used in the construction of a building is called building material. Concrete, reinforced concrete, steel, aluminum, wood, tile, plaster, etc., known as building materials. Fire is a chemical event that occurs as a result of the combination of matter with heat and oxygen. Fire protection is the study and practice of reducing the undesirable effects of destructive fires. It includes the behavior, suppression and investigation of fire. In this study, building materials such as steel, concrete and wood were examined, and then the protection of building materials using fire resistant materials and fire systems was emphasized.
10
Yu, Chia Chun, Te Chi Chen, Cherng Shing Lin, and Shih Cheng Wang. "Numerical Simulation of the Performance-Based of the Building Fire Protection Safety Evaluation." Key Engineering Materials 531-532 (December 2012): 668–72. http://dx.doi.org/10.4028/www.scientific.net/kem.531-532.668.
Повний текст джерелаАнотація:
In order to understand the fire safety of the various types of buildings, we need more flexible and efficient performance-estimating methods to verify fire protection safety in various types of buildings. Assuming can utilize computer fire simulation software CFAST / FDS + Evac to analyze Taiwan's domestic fire cases, in order to understand in the different fires heat flow transfer, and toxic smoke diffuse, and human evacuation to escape, and other important fire parameter characteristics, in the building the fire protection safety evaluating to produce the efficiency. This study is used cases of fires in four-story old-style residential and commercial mixed-use buildings to explain building fire performance-based numerical evaluation methods, and to provide quantitative data and reference information in Taiwan performance-based codes creating and the fire protection to project design is helpful in the buildings.
11
A. D, Abass, Olagunju Omotawurayo, Olajide Paul, Adeogun Erioluwa, Adeyemo Adeola, Muhammed Maryam, Ilugbekhai Chinonso, and Iyare Oluwafemi. "Evaluation of Passive Fire Safety Methods in Hostel Building: A Case Study of Bells University Male Silver Hostel." International Journal of Advanced Engineering Research and Science 9, no. 9 (2022): 068–77. http://dx.doi.org/10.22161/ijaers.99.7.
Повний текст джерелаАнотація:
When a fire breaks out, there is very little opportunity to flee. In minutes, a fire can grow and sometimes double in size. A fire can blaze out of control in less than 30 seconds, filling the region with heat and poisonous, thick black smoke, resulting in the loss of lives and property. This makes fire safety an important factors in build services. Fire safety methods play an aspect role in improving the structural stability of buildings during a fire. Student hostels require a fire protection system capable of protecting all residents from fire hazards. This study evaluates passive fire safety methods in hostel buildings. The study would provide first-hand information on the building and evaluate passive fire safety measures put in place. The study utilises qualitative analysis (observation method). Findings revealed that passive methods of fire safety implemented in the hostel building were not adequate to meet the standard building regulations. Thus, in the course of fire only active measures that are fully installed will aid the stoppage of fire. This study recommends that adequate passive fire protection measures should be implemented at the design stage to reduce the lost of lives and properties in the course of fire.
12
Al Qadri, A. B. Pratama, J. F. HT Saragi, F. TH Sinaga, and E. P. D. Boangmanalu. "Evaluasi Sistem Proteksi Hidrant sebagai Pengendalian Bahaya Kebakaran Pada Bangunan Perkantoran dengan Luas Bangunan 35.190 m2." Jurnal MESIL (Mesin Elektro Sipil) 4, no. 1 (July 14, 2023): 59–64. http://dx.doi.org/10.53695/jm.v4i1.891.
Повний текст джерелаАнотація:
In general, every building must be protected from fire hazards by passive and active fire protection systems. The application of a passive or active protection system is based on the function/classification, area, height, volume, building materials installed, and/or the number of building occupants. Therefore, we need a fire prevention system to reduce the impact and losses caused by fires. Fire Protection Systems are generally regulated by Permen PU 26/PRT/M/2008 concerning Technical Requirements for Fire Protection Systems in Buildings and the Environment, and then these requirements are grouped according to their respective aspects including, Hydrant Systems, pipe systems upright, Sprinkler System, and Smoke control system. The Hydrant Pump consists of Joekey 25 GPM, Electric and Diesel with a capacity of 1000 GPM
13
Tanubrata, Maksum. "Fire Safety Design in Building." Jurnal Teknik Sipil 3, no. 1 (March 25, 2019): 41–53. http://dx.doi.org/10.28932/jts.v3i1.1271.
Повний текст джерелаАнотація:
The main themes for fire safety planning may be described as follows ; Prevention of outbreak and growth of fire , Fire protection of Building structures, smoke control and escape planning. Fire load in a building can be roughly classified into 3 groups: (a). buildings materials, (b). furniture, and (c). daily goods. Building materials including linings, interior material of walls, ceilings, floors, partition walls, etc, and daily goods such as books, clothes, and so on.
14
Yu, Chia Chun, Shih Cheng Wang, Cherng Shing Lin, and Te Chi Chen. "CFD Application for Performance Based Safety Verification of Reinforced Concrete Beam in Computer Simulation Building Fire." Advanced Materials Research 601 (December 2012): 190–95. http://dx.doi.org/10.4028/www.scientific.net/amr.601.190.
Повний текст джерелаАнотація:
More than 90% of the buildings in Taiwan use reinforced concrete (RC) structures. Before or after fire damage, whether the RC structure accord Performance Based Design (PBD) fire code or safe evaluation are important in building fire protection verification. However, obtaining fire thermal parameters detailed quantitative data from building fire tests or actual building fires are difficult. Therefore, computational fluid dynamic (CFD) integration to simulate fire scenarios has been widely utilized in fire protection engineering. This study utilizes Fire Dynamics Simulator (FDS) fire model and PHOENICS field model software to simulate fire development and beams inner temperature variation. The structural strength estimated using beam cross-sections temperature to investigate dynamic ultimate bending moment (Mu) of RC beams. This integration method can investigate the influence of different beam positions, fire intensity, fire duration and fire damage sustained (two or three faces heated) for RC beams fire protection safe verification.
15
Yi, Xiaolie, and Lipeng Zheng. "Impact and Assessment of Urban Wind Environment Change on Architectural Heritage Protection." E3S Web of Conferences 237 (2021): 03035. http://dx.doi.org/10.1051/e3sconf/202123703035.
Повний текст джерелаАнотація:
In view of the contradiction between urban construction and protection of architectural heritage, this paper analyzes the hidden dangers of wind and fire protection of architectural heritage from the perspective of wind environment impact of high-rise buildings. The wind environment simulation and fire simulation based on computational fluid dynamics are used to study the typical building heritage cases in Guangzhou. The wind environment indicators that affect the comfort, safety and fire development of the wind environment of the building heritage are explained, so as to form a strategy for evaluating the impact of wind environment of high-rise buildings on the protection of building heritage.
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Liu, Mengkai, and Guoquan Wang. "Indoor Fire Simulation in Low-Rise Teaching Buildings Based on BIM–FDS." Fire 6, no. 5 (May 14, 2023): 203. http://dx.doi.org/10.3390/fire6050203.
Повний текст джерелаАнотація:
School buildings gather a large number of underage students, and the disastrous consequences of fire in such buildings are very serious, which is one of the key concerns of society in fire prevention and control. This study takes a “[” type kindergarten teaching building as the background and constructs a BIM–FDS building fire simulation model to reveal the fire smoke dispersion law under the coupling of the typical building structure and fire protection systems. The results show that the stairwells on both sides of the “[” type building are the main channels for the diffusion of fire smoke, and the asymmetry of the stairwell structure will cause apparent differences in the diffusion of smoke. Using the natural smoke exhaust in the stairwells of low-rise buildings does not aggravate the spread of smoke in the building and is conducive to smoke emissions. The high-pressure water mist system is superior to the water spray system in fire extinguishing and controlling room temperature. While it reduces smoke exhaust performance, it does not adversely affect personnel evacuation. This study systematically reveals the law of diffusion of fire smoke from “[”-type teaching buildings, which can support the design of similar building structures, ventilation, fire protection, and the formulation of fire escape plans.
17
Vovk, S., N. Ferents, and A. Lyn. "RELIGIOUS BUILDINGS FIRE SAFETY IN UKRAINE." Fire Safety 37 (January 6, 2021): 24–30. http://dx.doi.org/10.32447/20786662.37.2020.04.
Повний текст джерелаАнотація:
Problem. Religious buildings with a large number of people are fire hazardous. In total, there are 17,407 religious buildings in Ukraine. Out of them, approximately 3,000 are highly fire hazardous wooden buildings.The fire danger feature of religious buildings is open fire usage: candles, torches, lamps, underground rooms with complex planning, lack of ventilation systems. Besides, ancient religious buildings are mostly built using wooden materials. Fires occuring there are resonant, causing material and spiritual damage to the state and society. On average, about 20 fires occur each year in religious buildings, including wooden temples of historical heritage.Рurpose. Fire analysis in religious buildings in Ukraine and their occurrence causes; fire safety of religious buildings research.Preventive measures for religious building fire safety in Ukraine are prioritised by state program for emergency response. The State Emergency Service of Ukraine constantly monitors compliance with fire safety standards, which includes regular facilities inspections, personnel training control to prevent fires and reduce the consequences of fires, development, implementation, and control of technical methods of safety.Research methods. To achieve this goal, further methods were used: historical, systemic, theoretical generalization, abstract, logical, analysis, synthesis, comparative, and statistical methods.The main results. The most common shortcomings in religious building fire protection are the lack or malfunction of automatic fire alarms, power grid requirement non-compliance with the rules of the power grid, improper facility provision of with primary fire extinguishers, lack of lightning and water supplies for firefighting. In most buildings, wooden structures are not treated with refractory mortar.Fire causes and ways to prevent and improve fire safety are analyzed, namely: fire protection of religious building wooden elements, dome space fire extinguishing systems, fire alarm systems, lightning protection, safe people’s evacuation, candlesticks installation on non-combustible surfaces, primary fire extinguishing equipment, fire condition qualitative inspection of the of the heritage building, etc.Conclusions. After service, buildings must be completely deenergized, lighted candles and open fires must not be left unattended in the church. In religious buildings, it is necessary to carry out fire protection of wooden elements constructions, to install fire extinguishing systems in domed space, fire alarm system, lightning protection, to watch serviceability of electric networks. Rules of fire safety requirements for religious buildings are aimed at solving an important task - religious buildings safety. Unfortunately, due to lack of funds, the most important requirements are not implemented to improve fire safety.
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Vovk, S., N. Ferents, and A. Lyn. "RELIGIOUS BUILDINGS FIRE SAFETY IN UKRAINE." Fire Safety 37 (January 6, 2021): 24–30. http://dx.doi.org/10.32447/20786662.37.2020.04.
Повний текст джерелаАнотація:
Problem. Religious buildings with a large number of people are fire hazardous. In total, there are 17,407 religious buildings in Ukraine. Out of them, approximately 3,000 are highly fire hazardous wooden buildings.The fire danger feature of religious buildings is open fire usage: candles, torches, lamps, underground rooms with complex planning, lack of ventilation systems. Besides, ancient religious buildings are mostly built using wooden materials. Fires occuring there are resonant, causing material and spiritual damage to the state and society. On average, about 20 fires occur each year in religious buildings, including wooden temples of historical heritage.Рurpose. Fire analysis in religious buildings in Ukraine and their occurrence causes; fire safety of religious buildings research.Preventive measures for religious building fire safety in Ukraine are prioritised by state program for emergency response. The State Emergency Service of Ukraine constantly monitors compliance with fire safety standards, which includes regular facilities inspections, personnel training control to prevent fires and reduce the consequences of fires, development, implementation, and control of technical methods of safety.Research methods. To achieve this goal, further methods were used: historical, systemic, theoretical generalization, abstract, logical, analysis, synthesis, comparative, and statistical methods.The main results. The most common shortcomings in religious building fire protection are the lack or malfunction of automatic fire alarms, power grid requirement non-compliance with the rules of the power grid, improper facility provision of with primary fire extinguishers, lack of lightning and water supplies for firefighting. In most buildings, wooden structures are not treated with refractory mortar.Fire causes and ways to prevent and improve fire safety are analyzed, namely: fire protection of religious building wooden elements, dome space fire extinguishing systems, fire alarm systems, lightning protection, safe people’s evacuation, candlesticks installation on non-combustible surfaces, primary fire extinguishing equipment, fire condition qualitative inspection of the of the heritage building, etc.Conclusions. After service, buildings must be completely deenergized, lighted candles and open fires must not be left unattended in the church. In religious buildings, it is necessary to carry out fire protection of wooden elements constructions, to install fire extinguishing systems in domed space, fire alarm system, lightning protection, to watch serviceability of electric networks. Rules of fire safety requirements for religious buildings are aimed at solving an important task - religious buildings safety. Unfortunately, due to lack of funds, the most important requirements are not implemented to improve fire safety.
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Saras Ayu Faradita and Vinky Rahman. "Study of Interior Materials as Passive Fire Protection in Karaoke Building (Case Study: Masterpiece Signature Family KTV Medan)." International Journal of Architecture and Urbanism 4, no. 1 (June 28, 2020): 30–43. http://dx.doi.org/10.32734/ijau.v4i1.3855.
Повний текст джерелаАнотація:
The fire incident in karaoke buildings in Indonesia which claimed many lives has occurred several times. According to the National Academy of Science US, the smoke toxins that come out of the fire disaster cause 50-80% of deaths. Refers to the data, it is necessary to check further about the building material response to fire during a fire incident. Masterpiece Signature Karaoke is a karaoke building that classified as large and magnificent in the city of Medan which has various material so that it is necessary to study the interior material as passive fire protection. The purpose is to find out how to assess the reliability of fire passive protection regard to the interior materials and recommendations or descriptions of right interior material planning using the Analytical Hierarchy Process (AHP). This method is efficacious to solve the problem of reliability in using interior materials as passive fire protection in Masterpiece Signature Family KTV Medan building with the results of an Adequate Level of reliability. Then, design recommendations were given for the use of interior materials in karaoke building to improve the reliability results to be better.The results are useful as information for other researchers and karaoke buildings regarding passive fire protection systems at the Masterpiece Signature Family KTV Medan.
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Gravit, Marina, Yana Simonenko, and Leonid Yablonskii. "3D-flexible intumescent fire protection mesh for building structures." E3S Web of Conferences 91 (2019): 02004. http://dx.doi.org/10.1051/e3sconf/20199102004.
Повний текст джерелаАнотація:
The increased operational properties, main of which - ensuring fire resistance in the conditions of the hydrocarbon mode of the fire, resistance to low temperatures and lack of wet processes at installation are necessary for means of fire protection of structures of buildings and constructions of an oil and gas complex. The review of means of fire protection of new type - the constructive bent fire protection which advantage is the set of positive characteristics as constructive fire protection (a plate, a shell, etc. with dry process of installation), and coverings is submitted (plasters, epoxy structures, etc. with wet process of installation). Domestic experts (LTD Promizol, Moscow) developed the constructive bent fire protection for increase in building constructions of buildings and constructions of an oil and gas complex keeping operational properties in the conditions of the Arctic climate. Means of fire protection represents a grid with 3D - the reinforced structure. The closest analogy are products of the Hapuflam GmbH and FLAMRO companies, but at the moment there are no data on a possibility of use in the conditions of the Arctic region for protection of bearing structures and cable systems.
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Lin, Cherng Shing, Chia Chun Yu, and Shih Cheng Wang. "Numerical Investigation of Fire Dynamic Behavior for a Commercial Building Basement." Advanced Materials Research 594-597 (November 2012): 2213–18. http://dx.doi.org/10.4028/www.scientific.net/amr.594-597.2213.
Повний текст джерелаАнотація:
In the past twenty years, many severe basement fires occurred and caused huge losses of human lives and damages to property in Taiwan. During a building fire, smoke at high temperatures and poisonous gases (such as CO) may easily spread through corridors and ventilation systems in the entire building. Therefore, protecting against the basement fires in commercial buildings is of important concern for Taiwan’s fire protection authority. This paper utilizes FDS (Fire Dynamic Simulator) to construct a computer simulation model for investigating the Cardon basement fire that occurred in Taipei (1993). The fire accident unfortunately caused tremendous property losses and heavy casualties (22 died and 7 were injured). The major important parameters of the flow field - such as speed to the spread of fire, smoke movement, upper layer temperature, and CO concentration are obtained to analyze and understand the fire dynamic characteristics. The computed results reasonably agree with post-accident reports. The simulation results obtained may be utilized to improve the better and safer designs for basement building fire protection capability. The information can also be valuable for the similar fire disaster prevention and mitigation in the future.
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Zvyagintseva, A. V., S. A. Sazonova, and A. M. Zaitsev. "Engineering and Technical Solutions for Ensuring Security at Social Facilities." IOP Conference Series: Earth and Environmental Science 988, no. 3 (February 1, 2022): 032079. http://dx.doi.org/10.1088/1755-1315/988/3/032079.
Повний текст джерелаАнотація:
Abstract Engineering and technical solutions to ensure fire safety of the building and protection of people by deterministic factors have been installed. The object of research is a building of public social purpose. Constructive and planning solutions for preventing the spread of fire in the building of an object of class K0 for fire danger are diagnosed. The enclosing structures of the room must have a fire resistance index of at least REI 150. Technical solutions for evacuation routes and passageways, equipment that guarantees reliable protection from fires, communication in the building, ensuring procedures that implement the effective functioning of the fire Department to eliminate the source of fire have been formulated. Technical solutions for fire protection and communication systems of the building are justified in detail. Compensating measures are recommended for public buildings with an excess of the standard height and in the presence of six underground floors. It is specifically recommended to increase the fire resistance limits of load-bearing structures, stiffness cores – stair and elevator nodes and fire barriers to R/REI 180 and to provide the building with a type 5 warning system.
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Golovanov, V. I., A. V. Pekhotikov, and V. V. Pavlov. "Fire Protection of Steel and Reinforced Concrete Structures of Industrial Buildings and Structures." Occupational Safety in Industry, no. 9 (September 2021): 50–56. http://dx.doi.org/10.24000/0409-2961-2021-9-50-56.
Повний текст джерелаАнотація:
Variants of progressive solutions for the use of efficient fire protection means for steel and reinforced concrete structures of the industrial buildings and structures are considered for the purpose of increasing the actual fire resistance and ensuring the requirements of fire safety norms. Distinctive features of the temperature regimes in the initial phase of a real fire from a standard fire were established when assessing the fire resistance of building structures. It is proposed to use such standardized temperature regimes of fire for assessing the fire resistance of building structures, as standard — in the industrial buildings; temperature regime of hydrocarbons combustion — for oil and gas, petrochemical enterprises, offshore stationary platforms; tunnel temperature regime — in the road and railway tunnels. Considering the operating conditions and performance of work on fire protection, the degree of aggressiveness of the environment, the structural and methodological scheme was developed for selecting passive fire protection for steel structures. Recommendations are given on limiting the use of intumescent paints for load-bearing steel structures involved in the overall stability of buildings, with the required fire resistance limit of no more than 30 minutes. To calculate the temperature over the section of the structure during its heating, the dependences of the change in the coefficients of thermal conductivity and heat capacity of fire-retardant linings under fire were obtained. Experimental studies were conducted related to the fire resistance of reinforced concrete floor slabs and slabs with an external reinforcement system based on the carbon composite material with various types of fire-retardant materials. The issue of protecting the lining blocks of road and railway tunnels from brittle (explosive) destruction of concrete in a fire is considered. It is experimentally confirmed that the addition of polypropylene fibers to the concrete mixture replaces the use of fire protection for the tunnels enclosing structures.
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Roslan, Rozrinda, and Shahrul Yani Said. "Heritage Buildings Fires: Their challenges and consideration of fire safety protection." Environment-Behaviour Proceedings Journal 5, no. 13 (March 24, 2020): 267. http://dx.doi.org/10.21834/e-bpj.v5i13.2091.
Повний текст джерелаАнотація:
Heritage buildings represent state of the art at the time of their construction. Materials used that are often viewed critically today concerning fire safety. Preventive measures and any other active systems can prevent untoward incidences to heritage buildings. So, for a sound fire safety concept, several considerations can be made. Hence, by reviewing two heritage buildings that involved in the fire which are Shuri Okinawa Castle and Paris Notre Dame Cathedral, this paper is aimed to establish challenges faced by historical building in the event of a fire by referring to the selected case study and to determine whether minimal intervention imposed in passive fire protection provided in the premises is a good practice so that can be referred by others heritage buildings.Keywords: Fire Safety; Fire Protection; Heritage Buildings; Minimum InterventioneISSN: 2398-4287 © 2020. The Authors. Published for AMER ABRA cE-Bs by e-International Publishing House, Ltd., UK. This is an open access article under the CC BYNC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). Peer–review under responsibility of AMER (Association of Malaysian Environment-Behaviour Researchers), ABRA (Association of Behavioural Researchers on Asians) and cE-Bs (Centre for Environment-Behaviour Studies), Faculty of Architecture, Planning & Surveying, Universiti Teknologi MARA, Malaysia.DOI: https://doi.org/10.21834/e-bpj.v5i13.2091
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Pekhotikov, A. V., A. N. Poletaev, A. V. Gomozov, and S. V. Usolkin. "Current requirements to designing fire protection systems for educational establishments." Pozharovzryvobezopasnost/Fire and Explosion Safety 31, no. 2 (June 2, 2022): 5–14. http://dx.doi.org/10.22227/0869-7493.2022.31.02.5-14.
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Introduction. It is necessary to update requirements for designing fire protection systems for these facilities in terms of the safe evacuation and rescue of children and personnel, increase the efficiency of fire emergency response units conducting rescue operations, as well as optimize space planning and structural solutions to ensure a high level of fire safety inside buildings of preschool and general education organizations.Goals and objectives. The purpose of the article is to validate the updated requirements for designing fire protection systems for buildings of preschool and general education organizations in compliance with the Federal Law of the Russian Federation dated July 22, 2008 № 123-FZ «Technical regulations governing fire safety requirements» (hereinafter – «№Law 123-FZ»).Methods. An analytical method is used to formulate and substantiate the requirements for designing fire protection systems for educational establishments within the framework of the integrated application of Law 123-FZ and with regard for current trends in architecture and structural design of similar buildings, as well as fire risk calculations.Results. The results of the work are contributed to the amended sets of effective fire safety rules, such as SP 1.13130.2020 «Fire protection systems. Evacuation routes and exits», SP 2.13130.2020 «Fire protection systems. The fire resistance of protected facilities», SP 4.13130.2013 «Fire protection systems. Restricting fire spread throughout protected facilities. Requirements for space planning and structural solutions» (Amendment 1), etc., as well as SP 251.1325800.2016 «Buildings of general education organizations. Design rules» (Amendment 3).Conclusion. The research findings were employed to substantiate the current requirements for designing fire protection systems for educational establishments to improve the safety of children in the process of evacuation and rescue, if these buildings have premises featuring various classes of functional fire hazard, fire resistance limits and fire hazard classes of building structures, building materials and engineering installations.
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Wang, Zhiyi. "Integral Fire Protection Analysis of Complex Spatial Steel Structure Based on Optimized Gaussian Transformation Model." Computational Intelligence and Neuroscience 2022 (July 21, 2022): 1–12. http://dx.doi.org/10.1155/2022/6127225.
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The rapid development of complex space steel structure buildings has brought new challenges to structural fire protection analysis and design. On the basis of analyzing the deficiencies of structural fire protection design in existing normative and performance-based design methods and based on the knowledge and research results of fire science, structural engineering, computer simulation, and other disciplines, this paper proposes an improved Gaussian transformation model and applied it to the overall fire performance analysis of this complex space steel structure. The proposed model is based on theoretical research and practical application of the simulation and analysis of the overall fire performance of complex spatial buildings. The coupled analysis model and system integration method of spatial overall structure fire and structure are established. The improved Gaussian transformation model is used to propose the integrity of complex spatial structures. It is a system analysis model for fire analysis. The experimental results show that the designed algorithm model can effectively realize the overall fire performance analysis of complex spatial steel structures and can provide a useful reference for China’s building fire protection research, building fire protection design, fire rescue, emergency plan formulation, and other engineering practical applications.
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Iras Muthiah Hanan and Basaria Talarosha. "Evaluation of Fire Protection Systems in Hotel Building (Case Study: Grand Kanaya Hotel Medan)." International Journal of Architecture and Urbanism 4, no. 1 (March 30, 2020): 1–15. http://dx.doi.org/10.32734/ijau.v4i1.3852.
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Hotel is a public living facility for tourists by providing room services, food and beverage providers, and accommodation with payment terms. Fire is a flame, both small and large, which is usually hard to control and detrimental and can occur in a place that we do not expect. Ensuring the protection of hotel residents is one of the goals of hotel business standards. Grand Kanaya Hotel is a 3-star hotel building in the city of Medan, with 152 units of rooms and several facilities that enable activities involving large numbers of people, such as restaurants and ballrooms. According to the quite high number of occupants, Grand Kanaya Hotel requires a fire protection system that can protect all hotel residents against fire hazards. The study aims to evaluate the fire protection system that has been applied to the building of the Grand Kanaya Hotel and provide references for fire protection systems that are standard in hotel buildings. This research is using the qualitative method that obtains from field observation and uses a type of descriptive research that explains the facts or existing conditions of fire protection systems in the Grand Kanaya Hotel building. The results show that there are several fire protection systems in Grand Kanaya Hotels that not according to the standards, such as the minimum size, the material used is not resistant to fire, and maximum distance lies, which still exceeds the maximum value. The study results are useful as information for other researchers and hotels regarding fire protection systems at the Grand Kanaya Hotel building.
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Mikolai, Imrich, and Ján Tkáč. "Firefighting Systems and Video Smoke Detection as a Significant Part of Fire Safety in the Building." Advanced Materials Research 1057 (October 2014): 196–203. http://dx.doi.org/10.4028/www.scientific.net/amr.1057.196.
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Full functionally fire safety in the building is very important and significant factor of well designed, built and used building. The safety of persons in the building increases except passive fire protection (fire splitting building by fire protection structure) also by proposition and realization of active firefighting equipment; which are not designed only for detection of fire, but also for fire localization and people security against hot of fire and against combustion products and smoke. Lately, the phenomenon of human life protection begins consistently monitored in the building. Major factor in the monitoring of fire and smoke is video smoke detection.
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Saykar, Akshay, Chaitanya Tuwar, Prajwal Thakare, and Dr Amol Raundal. "CO2 Flooding and Water Sprinkler System by the Means of Double Routing System." International Journal for Research in Applied Science and Engineering Technology 10, no. 6 (June 30, 2022): 3760–66. http://dx.doi.org/10.22214/ijraset.2022.44857.
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Abstract: In introductory discuss the complexities of relationship between human and fire and the status of human efforts of control the disastrous effects of fire. A fire subsequent section examines characteristics and behavior of fire, with a special note on smoke movement in building and industry. The text covers these topics regarding fire hazards, fire hazards of specific material such as wood, fibres and explosive. Industrial and process fire hazards special fire protection and prevention issues regarding indoor and outdoor storage practices, material handling equipment, electrostatics ignition source etc. Fire safety in building design and construction with attention to high rise structure. Fire hazards of various types of occupied structure including residential business, industrial and educational. The role and responsibilities of public fire departments and water supplies discussions of fire protection devices and systems including fire alarms, detection devices guard’s services, extinguishment agents, water sprinklers, special system and portable fire extinguisher. Fire hazards of various types of occupied structure including residential buildings, industrial and educational buildings. The role and responsibilities of fire protection devices and systems including fire alarms, detection devices, extinguishment agents, special system, and CO2 fire extinguisher.
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Kodur, Venkatesh, Puneet Kumar, and Muhammad Masood Rafi. "Fire hazard in buildings: review, assessment and strategies for improving fire safety." PSU Research Review 4, no. 1 (September 11, 2019): 1–23. http://dx.doi.org/10.1108/prr-12-2018-0033.
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Purpose The current fire protection measures in buildings do not account for all contemporary fire hazard issues, which has made fire safety a growing concern. Therefore, this paper aims to present a critical review of current fire protection measures and their applicability to address current challenges relating to fire hazards in buildings. Design/methodology/approach To overcome fire hazards in buildings, impact of fire hazards is also reviewed to set the context for fire protection measures. Based on the review, an integrated framework for mitigation of fire hazards is proposed. The proposed framework involves enhancement of fire safety in four key areas: fire protection features in buildings, regulation and enforcement, consumer awareness and technology and resources advancement. Detailed strategies on improving fire safety in buildings in these four key areas are presented, and future research and training needs are identified. Findings Current fire protection measures lead to an unquantified level of fire safety in buildings, provide minimal strategies to mitigate fire hazard and do not account for contemporary fire hazard issues. Implementing key measures that include reliable fire protection systems, proper regulation and enforcement of building code provisions, enhancement of public awareness and proper use of technology and resources is key to mitigating fire hazard in buildings. Major research and training required to improve fire safety in buildings include developing cost-effective fire suppression systems and rational fire design approaches, characterizing new materials and developing performance-based codes. Practical implications The proposed framework encompasses both prevention and management of fire hazard. To demonstrate the applicability of this framework in improving fire safety in buildings, major limitations of current fire protection measures are identified, and detailed strategies are provided to address these limitations using proposed fire safety framework. Social implications Fire represents a severe hazard in both developing and developed countries and poses significant threat to life, structure, property and environment. The proposed framework has social implications as it addresses some of the current challenges relating to fire hazard in buildings and will enhance overall fire safety. Originality/value The novelty of proposed framework lies in encompassing both prevention and management of fire hazard. This is unlike current fire safety improvement strategies, which focus only on improving fire protection features in buildings (i.e. managing impact of fire hazard) using performance-based codes. To demonstrate the applicability of this framework in improving fire safety in buildings, major limitations of current fire protection measures are identified and detailed strategies are provided to address these limitations using proposed fire safety framework. Special emphasis is given to cost-effectiveness of proposed strategies, and research and training needs for further enhancing building fire safety are identified.
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Smith, Ron. "Passive fire protection." Structural Survey 11, no. 2 (February 1993): 142–49. http://dx.doi.org/10.1108/02630809310028503.
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Madzhidov, Inomzhon U., Bahrom T. Ibragimov, and Adiljan A. Suleymanov. "Fire danger analysis of seismic expansion joints." Structural Mechanics of Engineering Constructions and Buildings 15, no. 1 (December 15, 2019): 75–80. http://dx.doi.org/10.22363/1815-5235-2019-15-1-75-80.
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Aim of the research. Investigation of fire danger of seismic expansion joints, which have recently become almost the main component of seismic protection of buildings and structures. Identify the degree of fire danger of the building structure. Develop preventive measures to ensure fire safety of buildings and structures where seismic expansion joints are used. The relevance of this problem lies in the fact that the destruction of deformation seismic joints in seismic conditions for the spread of combustion (usually secondary occur in earthquakes) from one compartment of the building to another (protected by partitions, fire compartments, locks). That is, combustion opens the possibility to bypass special protections put in its way, in order to avoid its spread. Methods. Antiseismic deformation joints have been studied from the point of view of fire safety. The work mainly deals with the expansion joints used in the installation of aluminum panels for the design of buildings and structures. The connection of fire danger of antiseismic joints combined with technological and operational errors of performers is shown. Tests of various seismic protection joints for fire danger have been carried out. Results. It is concluded that it is necessary to develop a special regulatory documentation that introduces specific rules for the execution of expansion joints, especially designed to improve the seismic safety of buildings and structures.
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Vividia, Yemima Sahmura, and Bangun IR Harsritanto. "EVALUATION OF LIFE SAFETY TECHNICAL FACILITIES FROM FIRE ON APARTEMENT." MODUL 19, no. 1 (May 29, 2019): 50. http://dx.doi.org/10.14710/mdl.19.1.2019.50-54.
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Vertical occupancy, especially apartments, began to live the face of the city. Not without reason, housing needs continue to increase sharply as the availability of vacant land is increasingly limited. Occupying an apartment becomes a trend and lifestyle for young people. The reason boils down to productivity. The construction of apartments is usually built close to various activity centers, both business, commercial, education, health to entertainment. The improvement of building construction is not supported by the availability of land that is increasingly limited, especially in the city of Jarakta, making the construction of high-rise buildings anticipate this. The construction of multi-story buildings also increases the risk of fire. In 2018, according to him, there were at least 1,078 recorded disaster events throughout 2018. Head of the Jakarta Fire and Rescue Management Agency, Subedjo, said that out of a total of 897 buildings or tall buildings in Jakarta, 280 tall buildings had not yet accomplished the fire protection system (Dinas, 2018).Therefore, this research needs to be done to evaluate the lifesaving facilities and infrastructure in the building. The application of fire safety in buildings can be evaluated regarding to NFPA 101 (2013). Based on NFPA 101A: Guide on Alternative Approaches for Life Safety (2013), there are 12 elements of safety and Regulation of the Minister of Public Works No. 26 / PRT / M / 2008 concerning Technical Requirements of Fire Protection Systems in Building Buildings. The building that became the object of research is one of the buildings in the area of Jakarta mentioned building X and building Y. The variables that are the focus of the research are fire stairs, fire doors, and access roads. Based on the results of the study, the level of reliability of the means of saving lives against fire hazards in building X is equal to 58% and in building Y is 65%.
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Juríčková, Michaela. "Fire Dynamic Simulation and Impact of Water Sprinkler Systems to Heat Flow." Advanced Materials Research 855 (December 2013): 187–90. http://dx.doi.org/10.4028/www.scientific.net/amr.855.187.
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The geometry, ventilation, building construction and the other aspects are very important for the correct designing of the buildings. The building can be designed correctly only by the coordination between all parts of the designing. Especially for large building the coordination between civil part and fire protection is very important. The PC modeling of the fire is cheap and effective form to show the real fire behavior. The fire dynamic simulations could help to make a correct design.
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Maharani, Fandita Tonyka, Azizah Musliha Fitri, and Arga Buntara. "THE ANALYSIS OF FIRE ENGINEERING AND ADMINISTRATIVE CONTROL AT BUILDING X UNIVERSITY Y YEAR 2018." Indonesian Journal of Occupational Safety and Health 8, no. 1 (March 26, 2019): 57. http://dx.doi.org/10.20473/ijosh.v8i1.2019.57-65.
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Jakarta Provincial Fire and Rescue Agency mentioned that the capital approximately has 900 high building, however only 20 % of them possessed adequate safety precaution. Data from the Jakarta Provincial Fire and Rescue Agency show that in 2018, 1,106 fire cases caused economic loss worth around Rp 151,498,186,111. Building X University Y is used every day with more than 500 occupants for education purpose. The aim of this study was to analyze fire engineering and administrative controls in the building according to the standards (National Fire Protection Association standards and the Regulation of Minister of Public Works No. 26/PRT/M/2008). This study used analytical descriptive design with direct observation as study method. The study was conducted in July 2018. The study found that the building has not met the adequate standards yet, such as active and passive protection systems, and the means of the evacuation system. There were no active protection systems. The only implemented passive protection system was a compartmentation system which divided the building into cells designed to resist the fire spread when it happens. There were no other passive protection systems found in the structure. All doors and windows were made of woods and glasses. There were no means of evacuation in the building. There were no administrative controls in the building. Appropriate controls are required in the building, involving fire engineering and administrative controls because the building lack of fire protective and precaution systems.Keywords: evacuation system, fire control, protection system
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Tokhtamuratov, D. M., A. B. Sirojiddinov, B. V. Bahabov, and B. A. Muslimov. "The Application Of Intumescent Compounds As A Means Of Providing Fire Protection Of Building Materials." American Journal of Interdisciplinary Innovations and Research 03, no. 01 (January 23, 2021): 19–24. http://dx.doi.org/10.37547/tajiir/volume03issue01-03.
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The research paper analyzes the use of intumescent compounds as a means of providing fire protection for building materials. The need to use lightweight coatings is indicated. Along with other intumescent compositions developed in a number of foreign countries, the author pays special attention to the experience of American specialists who have developed a method for producing mixed compositions from silicate materials with fillers in the form of mica and vermiculite, characterized by increased porosity and intended for use in the manufacture of fire-resistant building products and fire retardant coatings. for building structures.
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Li, He Qun, Yang Yu, and Xiang Yu. "On Fire Protection Problems and its Countermeasures about Chinese Ancient Architecture." Applied Mechanics and Materials 204-208 (October 2012): 3365–68. http://dx.doi.org/10.4028/www.scientific.net/amm.204-208.3365.
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The most ancient buildings of China are formed by wooden elements, such as columns, beams, so they are prone to fire and are difficult to fire control due to the lack of fire channel. The cause of the fire includes two aspects of human and nature. The basic countermeasures of ancient building fire mainly include display in such aspects as opening fire channels, doing well the construction of fire water sources, the use of advanced fire protection technology, managing the fire of life and maintenance strictly and so on. Meanwhile, handle the relationship between fire and protection of cultural relics.
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N. Vinky Rahman and Elky Fernanda. "EVALUATION OF PASSIVE FIRE PROTECTION SYSTEMS IN SUPERMALL BUILDINGS." Jurnal Koridor 10, no. 1 (July 25, 2019): 12–17. http://dx.doi.org/10.32734/koridor.v10i1.1382.
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Evaluation of a passive fire protection system is an effort to find out how feasible a fire protection system is in a building. One of the main problems arising from fire hazards in mall buildings is fire protection systems that do not meet standards. This study aims to analyze the building fire protection system, with the Sun Plaza Medan case study with a total of six floors and one basement, and located in the city center. The method used in this study is descriptive qualitative and quantitative, with a variable observation stage which is then carried out by a comparison process using the Analytical Hierarchy Process. This AHP method is helpful for researchers to get the results needed. Evaluation results obtained at shopping centers (case studies: Sun Plaza Medan) can be categorized as good, although several components do not meet the standards. Several recommendations were made for changes by testing, to obtain an increase in the value of the reliability of the passive fire protection system in the case study.
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Mufida, Milla Rosa, and Tri Martiana. "SISTEM TANGGAP DARURAT KEBAKARAN DI GEDUNG ADMINISTRASI PERUSAHAAN LISTRIK." Indonesian Journal of Occupational Safety and Health 8, no. 1 (March 26, 2019): 47. http://dx.doi.org/10.20473/ijosh.v8i1.2019.47-56.
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Fire is an accident that can cause many losses. One of building safety requirements are application system of fire emergency response. The building contained a safety against fire hazard through the protection system of active and passive protection. This research aims to study fire emergency response system the administration building of PT PJB UP. PAITON in 2015. The variables are policy, procedures, organization, simulation training, communication and emergency response system for prevention and mitigation fires. The system of fire prevention and countermeasure are active and passive protection system. This was an observational study with cross-sectional design. This study was comparing the data observations and interviews with regulation Health Ministry of Indonesia 2010, international standard NFPA 10, 13, 14 and 72 and Kepmen PU No. 10/KPTS/2000. The result show that building have 4th floor and more than 200 employee, so need protection when there are fire building. Policy, procedure and organization unresolved by management industry. Simulation training has routine every 1 year. Communication of emergency response are good action. Active protection system are sufficient compliance with the standard. Passive protection system exist that do not meet the requirements. The results show that emergency response management system fire and fire prevention and countermeasure system still needs to be improved, especially in the management system. Keywords: administration building, electrical industry, fire emergency response system
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Dee, A. W. "Fire Protection on Trains." Proceedings of the Institution of Mechanical Engineers, Part D: Transport Engineering 201, no. 3 (July 1987): 217–27. http://dx.doi.org/10.1243/pime_proc_1987_201_179_02.
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The hazards from fire in a moving vehicle are similar to the hazards from fire in a building and so similar steps must be taken to detect the presence of fire, to prevent it spreading and to extinguish it in this special circumstance. This paper describes the diferent methods that can be used to provide an effective fire protection system from trains. The various system requirements are set out and a selection is made of the type of system required and the equipment needed to perform each task. Each element of the system, consisting of detection, control and monitoring and extinguishment, is dealt with separately and its advantages and disadvantages are given. Finally, an assessment is made of the applications of the system, and reliability, testing, maintenance and safety features are discussed.
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Hayajneh, Suhaib M., and Jamal Naser. "Fire Spread in Multi-Storey Timber Building, a CFD Study." Fluids 8, no. 5 (April 28, 2023): 140. http://dx.doi.org/10.3390/fluids8050140.
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The purpose of this paper is to investigate the fire performance in a multi-storey cross-laminated timber (CLT) structure by the computational fluid dynamics (CFD) technique using the Fire Dynamics Simulator (FDS v.6.7). The study investigates fire temperature, heat release rate (HRR), and gas concentration (O2, CO2). The importance of this research is to ensure that the fire performance of timber buildings is adequate for occupant safety and property protection. Moreover, the proposed technique provides safety measures in advance for engineers when designing buildings with sufficient fire protection by predicting the fire temperature, time to flashover and fire behaviour. The present numerical modelling is designed to represent a 10-storey CLT residential building where each floor has an apartment with 9.14 m length by 9.14 width dimensions. The pyrolysis model was performed with thermal and kinetic parameters where the furniture, wood cribs and CLT were allowed to burn by themselves in simulation. This research is based on a full-scale experiment of a two-storey CLT building. The present results were validated by comparing them with the experimental data. Numerical simulation of CLT building models show a very close accuracy to the experiment performed in the benchmark paper. The results show that the CFD tools such as FDS can be used for predicting fire scenarios in multi-storey CLT buildings.
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Yuan, Jian-Ping, Shi-Jie Li, Kun Zhang, Kai-Qiang Wang, Zhi-Mao Liu, Zhi-Wu Ye, Ji-Yun Zhou, and Chao Zhang. "Fire Behavior in a Hermetic Pressurization Building for Reducing the Effects of High Altitude: A Case Study." Fire 6, no. 5 (April 26, 2023): 178. http://dx.doi.org/10.3390/fire6050178.
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Hermetic pressurized buildings have been developed to reduce the effects of high altitude. The behavior and effect of fire in this new type of building have not been studied before. Unlike common buildings, the inside pressure in this new type of building is maintained at around standard atmospheric pressure, which is significantly higher than the outside environment pressure in high altitude regions. In addition, at the early stage of a fire, the oxygen required to maintain combustion in the sealed building is supplied by mechanical vents (if in operation) instead of opening windows or doors as in common buildings. This paper presents a case study on the behavior of fire in a sealed pressurized hotel building located in Tibet. Fire dynamics simulator (FDS) is used to study fire behavior under different design fire scenarios. Available evacuation time under different fire scenarios are obtained by analyzing oxygen concentration, gas content, temperature, visibility and other indicators. Based on this, a fire protection design scheme is suggested.
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Rini, Sartika. "Applying Indonesia Regulation on Fire Protection System at WTC 1 Building in Jakarta through Fire Risk Assessment (FRA)." E3S Web of Conferences 388 (2023): 01033. http://dx.doi.org/10.1051/e3sconf/202338801033.
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Currently, the development of building maintenance should be a major consideration in particular against fire hazards, in order to carry out activities, and increase productivity and improve quality in their life. This Ministerial Regulation is intended to be a reference for building administrators in realizing building operations that are safe against fire hazards. The purpose for the FRA implementation is functioning the WTC 1 building and environments those are safe for humans, property, especially from the danger of fire, so as not to cause social welfare disturbances. The scope of this ministerial regulation covers fire protection systems in buildings and their environment starting from the planning stage, implementation of development to the utilization stage, so that the building is always reliable and of good quality according to its function.
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Hardie, Mary, Melvyn Green, and Yaping He. "Fire and heritage protection in Australian public housing." Journal of Cultural Heritage Management and Sustainable Development 4, no. 2 (November 17, 2014): 196–212. http://dx.doi.org/10.1108/jchmsd-08-2013-0040.
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Purpose – Heritage housing in inner city areas represents a valuable cultural asset that belongs, in part, to the community as a whole. Despite this, the risk of destruction by fire in closely spaced heritage housing has not received a great deal of research attention. The purpose of this paper is to identify potential faults in building fabric that may result in unacceptable fire safety risks to irreplaceable heritage streetscapes. Design/methodology/approach – This paper examines a sample of publically administered heritage houses in inner Sydney. A condition survey looks at the occurrence of noted defects, or non-compliances to the current building regulations, in fire separation between attached or closely spaced occupancies. Findings – Fire spread between adjacent buildings is identified as a potential hazard which needs to be addressed in order to ensure both the sustainability of the remaining heritage housing stock and the safety of the occupants. Research limitations/implications – While the survey is small, it represents a significant proportion of a dwindling stock of nineteenth century heritage housing in public ownership in Sydney. Practical implications – Based on the results of the survey, a recommendation has been made in regard to improving building surveying practice when dealing with renovation of heritage housing. Social implications – Concern over the diminishing availability of social housing in inner city locations indicates the need for more attention to the fire safety of the remaining stock. Originality/value – The research provides original data on the level of fire safety risk in a regional cluster of heritage housing.
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Dedy Ruzwardy, Juliansyah Harahap, and Habiyuda Pradana Syahran. "ANALYSIS OF FIRE PROTECTION SYSTEM ON THE MULTIFUNCTIONAL LABORATORY BUILDING OF AR-RANIRY STATE ISLAMIC UNIVERSITY BANDA ACEH INDONESIA." Lingkar : Journal of Environmental Engineering 4, no. 1 (July 15, 2023): 45–56. http://dx.doi.org/10.22373/ljee.v4i1.2722.
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Fire can occur if three main elements are met, namely heat, oxygen, and fuel or it is called the fire triangle. Risks arising from fire incidents can be minimized by a fire protection system and the reliability of building safety systems. To ensure that the two systems run optimally, an evaluation and examination are needed on the existing conditions based on the applicable safety technical standards. This study aims to determine the existing condition of the applied fire protection system and to determine the reliability of the building safety system in the Ar-Raniry Multifunctional Laboratory Building. This research was conducted using a quantitative descriptive method. Research data collection was carried out using observation and interview methods. The observation method for existing conditions was carried out using a checklist compiled based on the Indonesian Minister Public Works’ Regulation Number 26/PRT/M/2008 of 2008 for fire protection systems and fire protection code from the National Standardization Agency of Indonesia Number Pd-T-11-2005-C on the reliability of building safety systems. The results show that the fire protection system in the UIN Ar-Raniry Multifunction Laboratory building was in the Enough category, with a value of 3.25. This is due to the absence of several active fire protection instruments such as fire extinguishers, sprinklers, and hydrants. Addionally, from the results of the reliability of the building safety system for the UIN Ar-Raniry Multifunction Laboratory building, it is in the Enough category with a value of 63.02. This is caused by the absence of emergency lighting and water sources as a source of hydrant water.
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BELIKOV, A. S., V. A. SHALOMOV, O. V. SHYBA, and A. O. MAKHINKO. "THEORETICAL ANALYSIS OF THE COMBUSTION PROCESS." Ukrainian Journal of Civil Engineering and Architecture, no. 4 (October 22, 2022): 26–30. http://dx.doi.org/10.30838/j.bpsacea.2312.250822.26.874.
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Problem statement. The analysis of fire hazard shows that fires cause significant material damage to the economy around the world, significantly complicating the environmental situation, endangering human life. Thus, in Ukraine there are more than 50 thousand fires every year, in which people die, and material damage exceeds hundreds of millions of hryvnias, incidental losses are 20 times greater. This alarming statistics is largely due to the increased fire hazard of buildings and structures erected and operated by changing production technology, increasing the number of storeys and building density, changing traditional and material-intensive technologies of building new advanced technologies with effective building materials from wood, plastics and polymers, metal, etc. Many of these materials are highly sensitive to high temperatures and fire. Thus, wooden and plastic building materials and structures under the action of high temperatures can burn, releasing significant amounts of heat and toxic substances. Metal structures under fire are rapidly heated to critical temperatures, which leads to a loss of their load-bearing capacity. The purpose of the article. Research of regularities at high-temperature heating of wood and metal, at burning and decomposition of wood. Conclusions. Fire protection of building structures is a necessary part of preventive measures aimed at ensuring fire safety and fire resistance of buildings and structures. The main task of structures’ fire protection is to reduce the flammability of materials and reduce heat transfer to them.
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GOLOVANOV, V., and G. KRYUCHKOV. "STEEL STRUCTURES FIRE RESISTANCE ASSESSMENT UNDER STANDARDIZED FIRE TEMPERATURE REGIMES." Fire and Emergencies: prevention, elimination 3 (2021): 52–60. http://dx.doi.org/10.25257/fe.2021.3.52-60.
Повний текст джерелаАнотація:
Purpose. Fire development model application field to assess fire resistance of steel basic structures, taking into account the terms of use of buildings and structures was determined. Methods. The regulatory sources were analyzed by the authors; calculation of steel structures heating with and without fire protection were carried out under the conditions of a standard temperature regime of a fire and a regime of hydrocarbons combustion using the Ansys software package; the calculations were compared with experimental data. Findings. The conducted research to assess steel structures fire resistance under the conditions of a standard temperature fire regime and hydrocarbons combustion regime demonstrated the possibility of calculating their heating using the Ansys software package. It has been established that the fire resistance limit for the loss of steel structures bearing capacity without fire protection at a standard temperature regime is 2 times higher than at a hydrocarbon temperature regime, and with fire protection made of cement-sand plaster or Newspray coating - 1.2-1.3 times. Research application field. The calculated values of the limits of steel basic structures fire resistance with fire protection made of cement-sand plaster or Newspray coating for a standard fire temperature regime can be used in the design and reconstruction of residential, public and office buildings. When designing buildings and structures of oil and gas, petrochemical enterprises, offshore fixed platforms for oil and gas production, the calculations outcomes for steel structures fire resistance under conditions of a hydrocarbon temperature regime should be used. Conclusions. The possibility of calculating the actual limit of fire resistance of unprotected steel building structures and structures with fire protection under the conditions of a standard fire temperature regime and hydrocarbons combustion regime with using the Ansys software package was determined. The resulting nomograms of steel structures fire resistance with fire protection made of cement-sand plaster and the Newspray coating may be used to design passive fire protection systems at construction sites, taking into account the standardized fire temperature regimes, depending on the terms of structures use.
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Żmijewski, Tomasz. "How to adapt wooden buildings to fire regulations?" Budownictwo i Architektura 14, no. 4 (December 8, 2015): 183–88. http://dx.doi.org/10.35784/bud-arch.1558.
Повний текст джерелаАнотація:
The article presents the possibility of adapting the buildings to fire regulations due to fire resistance. The possibilities are examples of solutions that affect increase the strength of the fire wood elements objects. These are the elements of active and passive fire protection in various ways interfere with the structure of the building.
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Heru Sufianto, Agung Murti Nugroho, and M Satya Aditama. "FRAMEWORK TANGGAP BENCANA KEBAKARAN GEDUNG KAMPUS." Jurnal Koridor 9, no. 1 (January 15, 2018): 1–8. http://dx.doi.org/10.32734/koridor.v9i1.1378.
Повний текст джерелаАнотація:
Fires in buildings have significant impact on communities both socially and economically. In education facilities, fire incidents have potential impact on research product lost. Fire authorities, practitioners and relevant bodies have been addressed this issue partially on the points of physical aspects and management addressed to fire safety. This study seeks the importance element of a framework that should be implemented comprehensively increasing building fire protection around the clock. Physical assessment on numbers of buildings have been performed, a questionnaire seeking for occupant’s awareness and knowledge toward fire incidents have been disseminated. Meanwhile, fire disaster models from a number of campuss buildings have been reviewed. The study found 4 elements of the fire disaster framework to be considered, including: the occupant’s fire awareness, means of the building, insentives, and control.
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Zvyaginceva, Alla, Svetlana Sazonova, and Valeriy Popov. "ANALYSIS OF COMPLIANCE OF THE ARCHITECTURAL AND CONSTRUCTION PART OF THE PROJECT WITH FIRE PROTECTION AND DEVELOPMENT OF ENGINEERING AND TECHNICAL SOLUTIONS TO ENSURE SECURITY AT SOCIAL FACILITIES IN THE SERVICE SECTOR." Modeling of systems and processes 13, no. 3 (December 7, 2020): 42–53. http://dx.doi.org/10.12737/2219-0767-2020-13-3-42-53.
Повний текст джерелаАнотація:
A systematic survey of compliance of the architectural and construction part of the project with fire safety requirements for basic indicators that ensure fire resistance and fire safety of the building was carried out. Engineering and technical solutions to ensure fire safety of the building and protection of people by deterministic factors have been installed. Structural and planning solutions to prevent the spread of fire in the building of the object were diagnosed. Technical solutions are formulated: for evacuation routes and exits, for fire protection and communication systems of the building, for ensuring measures that ensure the successful work of firefighters to extinguish a fire.