�ݺ�ߣshows by User: zuhalmsimsek

�ݺ�ߣshows by User: zuhalmsimsek / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: zuhalmsimsek / Tue, 22 Nov 2016 11:08:36 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: zuhalmsimsek Providing the Sustainability with the Pozzuolana Concrete Used in Foundation /slideshow/providing-the-sustainability-with-the-pozzuolana-concrete-used-in-foundation-69401390/69401390 providingsus-161122110837
To provide concrete industry and sustainability development, the amount of cement which releases harmfull gases and wastes while being produced should be reduced. Because using less cement than the amount which is gained as a result of mixture calculation cannot provide necessary performance in the point of resistance, it should be predicated that using the materials which are appraised by changing places with the concrete which has connective quality to provide sustainability. In this study it is aimed to increase the strength by providing impermeability of underground building elements and to provide resistance by the puzzlans which are added in the mixture of concrete by changing places for sustainable environment. To prove impermeability for sustainable environment, a certain percentage of pozzuolanas added to the concrete mix by switching through cement. Permeability of pressure water, capillarity and compressive strength evaluation tests were carried out.on concrete specimens with pozzuolana additive. Keywords: Foundation, building material, water isolation, sustainability]]>
To provide concrete industry and sustainability development, the amount of cement which releases harmfull gases and wastes while being produced should be reduced. Because using less cement than the amount which is gained as a result of mixture calculation cannot provide necessary performance in the point of resistance, it should be predicated that using the materials which are appraised by changing places with the concrete which has connective quality to provide sustainability. In this study it is aimed to increase the strength by providing impermeability of underground building elements and to provide resistance by the puzzlans which are added in the mixture of concrete by changing places for sustainable environment. To prove impermeability for sustainable environment, a certain percentage of pozzuolanas added to the concrete mix by switching through cement. Permeability of pressure water, capillarity and compressive strength evaluation tests were carried out.on concrete specimens with pozzuolana additive. Keywords: Foundation, building material, water isolation, sustainability]]> Tue, 22 Nov 2016 11:08:36 GMT /slideshow/providing-the-sustainability-with-the-pozzuolana-concrete-used-in-foundation-69401390/69401390 zuhalmsimsek@slideshare.net(zuhalmsimsek) Providing the Sustainability with the Pozzuolana Concrete Used in Foundation zuhalmsimsek To provide concrete industry and sustainability development, the amount of cement which releases harmfull gases and wastes while being produced should be reduced. Because using less cement than the amount which is gained as a result of mixture calculation cannot provide necessary performance in the point of resistance, it should be predicated that using the materials which are appraised by changing places with the concrete which has connective quality to provide sustainability. In this study it is aimed to increase the strength by providing impermeability of underground building elements and to provide resistance by the puzzlans which are added in the mixture of concrete by changing places for sustainable environment. To prove impermeability for sustainable environment, a certain percentage of pozzuolanas added to the concrete mix by switching through cement. Permeability of pressure water, capillarity and compressive strength evaluation tests were carried out.on concrete specimens with pozzuolana additive. Keywords: Foundation, building material, water isolation, sustainability <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/providingsus-161122110837-thumbnail.jpg?width=120&height=120&fit=bounds" /> To provide concrete industry and sustainability development, the amount of cement which releases harmfull gases and wastes while being produced should be reduced. Because using less cement than the amount which is gained as a result of mixture calculation cannot provide necessary performance in the point of resistance, it should be predicated that using the materials which are appraised by changing places with the concrete which has connective quality to provide sustainability. In this study it is aimed to increase the strength by providing impermeability of underground building elements and to provide resistance by the puzzlans which are added in the mixture of concrete by changing places for sustainable environment. To prove impermeability for sustainable environment, a certain percentage of pozzuolanas added to the concrete mix by switching through cement. Permeability of pressure water, capillarity and compressive strength evaluation tests were carried out.on concrete specimens with pozzuolana additive. Keywords: Foundation, building material, water isolation, sustainability

Providing the Sustainability with the Pozzuolana Concrete Used in Foundation from Zuhal ナ枴mナ歹k

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0 COMPARATIVE ANALYSIS OF TWO MAJOR HOSPITAL FIRES /slideshow/comparative-analysis-of-two-major-hospital-fires/69401281 makale-161122110545
Both in terms of their functions and occupancy characteristics, hospitals require special design criteria and safety measures. Protection of users and ensuring their safety is important during a fire and during the follow-up phases of to sustain treatment of patients. Hospital fire is a disaster that is frequently encountered today as was the case in the past. With advances in treatment and care conditions in hospitals it is considered that fire safety measures are more likely to develop in the light of technological advances in these buildings. Adapting the measures to be taken by examining the factors causing the start and spread of these fires to existing and new hospitals will help preventing new disasters and ensuring safety of hospitals and patients. For this purpose similar aspects of “Bursa Şevket Yılmaz Hospital fire” where 9 patients died and “Cleveland hospital fire” where 121 patients died are explained and the progress of the measures within this time period is discussed. This analysis will help to correct the deficiencies that affect the start and spread of fire and to design hospitals with fire safety.]]>
Both in terms of their functions and occupancy characteristics, hospitals require special design criteria and safety measures. Protection of users and ensuring their safety is important during a fire and during the follow-up phases of to sustain treatment of patients. Hospital fire is a disaster that is frequently encountered today as was the case in the past. With advances in treatment and care conditions in hospitals it is considered that fire safety measures are more likely to develop in the light of technological advances in these buildings. Adapting the measures to be taken by examining the factors causing the start and spread of these fires to existing and new hospitals will help preventing new disasters and ensuring safety of hospitals and patients. For this purpose similar aspects of “Bursa Şevket Yılmaz Hospital fire” where 9 patients died and “Cleveland hospital fire” where 121 patients died are explained and the progress of the measures within this time period is discussed. This analysis will help to correct the deficiencies that affect the start and spread of fire and to design hospitals with fire safety.]]> Tue, 22 Nov 2016 11:05:45 GMT /slideshow/comparative-analysis-of-two-major-hospital-fires/69401281 zuhalmsimsek@slideshare.net(zuhalmsimsek) COMPARATIVE ANALYSIS OF TWO MAJOR HOSPITAL FIRES zuhalmsimsek Both in terms of their functions and occupancy characteristics, hospitals require special design criteria and safety measures. Protection of users and ensuring their safety is important during a fire and during the follow-up phases of to sustain treatment of patients. Hospital fire is a disaster that is frequently encountered today as was the case in the past. With advances in treatment and care conditions in hospitals it is considered that fire safety measures are more likely to develop in the light of technological advances in these buildings. Adapting the measures to be taken by examining the factors causing the start and spread of these fires to existing and new hospitals will help preventing new disasters and ensuring safety of hospitals and patients. For this purpose similar aspects of “Bursa Şevket Yılmaz Hospital fire” where 9 patients died and “Cleveland hospital fire” where 121 patients died are explained and the progress of the measures within this time period is discussed. This analysis will help to correct the deficiencies that affect the start and spread of fire and to design hospitals with fire safety. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/makale-161122110545-thumbnail.jpg?width=120&height=120&fit=bounds" /> Both in terms of their functions and occupancy characteristics, hospitals require special design criteria and safety measures. Protection of users and ensuring their safety is important during a fire and during the follow-up phases of to sustain treatment of patients. Hospital fire is a disaster that is frequently encountered today as was the case in the past. With advances in treatment and care conditions in hospitals it is considered that fire safety measures are more likely to develop in the light of technological advances in these buildings. Adapting the measures to be taken by examining the factors causing the start and spread of these fires to existing and new hospitals will help preventing new disasters and ensuring safety of hospitals and patients. For this purpose similar aspects of “Bursa Şevket Yılmaz Hospital fire” where 9 patients died and “Cleveland hospital fire” where 121 patients died are explained and the progress of the measures within this time period is discussed. This analysis will help to correct the deficiencies that affect the start and spread of fire and to design hospitals with fire safety.

COMPARATIVE ANALYSIS OF TWO MAJOR HOSPITAL FIRES from Zuhal ナ枴mナ歹k

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0 Providing the Sustainability with the Pozzuolana Concrete Used in Foundation /slideshow/providing-the-sustainability-with-the-pozzuolana-concrete-used-in-foundation/69396476 providingsus-161122085622
To provide concrete industry and sustainability development, the amount of cement which releases harmfull gases and wastes while being produced should be reduced. Because using less cement than the amount which is gained as a result of mixture calculation cannot provide necessary performance in the point of resistance, it should be predicated that using the materials which are appraised by changing places with the concrete which has connective quality to provide sustainability. In this study it is aimed to increase the strength by providing impermeability of underground building elements and to provide resistance by the puzzlans which are added in the mixture of concrete by changing places for sustainable environment. To prove impermeability for sustainable environment, a certain percentage of pozzuolanas added to the concrete mix by switching through cement. Permeability of pressure water, capillarity and compressive strength evaluation tests were carried out.on concrete specimens with pozzuolana additive. Keywords: Foundation, building material, water isolation, sustainability]]>
To provide concrete industry and sustainability development, the amount of cement which releases harmfull gases and wastes while being produced should be reduced. Because using less cement than the amount which is gained as a result of mixture calculation cannot provide necessary performance in the point of resistance, it should be predicated that using the materials which are appraised by changing places with the concrete which has connective quality to provide sustainability. In this study it is aimed to increase the strength by providing impermeability of underground building elements and to provide resistance by the puzzlans which are added in the mixture of concrete by changing places for sustainable environment. To prove impermeability for sustainable environment, a certain percentage of pozzuolanas added to the concrete mix by switching through cement. Permeability of pressure water, capillarity and compressive strength evaluation tests were carried out.on concrete specimens with pozzuolana additive. Keywords: Foundation, building material, water isolation, sustainability]]> Tue, 22 Nov 2016 08:56:21 GMT /slideshow/providing-the-sustainability-with-the-pozzuolana-concrete-used-in-foundation/69396476 zuhalmsimsek@slideshare.net(zuhalmsimsek) Providing the Sustainability with the Pozzuolana Concrete Used in Foundation zuhalmsimsek To provide concrete industry and sustainability development, the amount of cement which releases harmfull gases and wastes while being produced should be reduced. Because using less cement than the amount which is gained as a result of mixture calculation cannot provide necessary performance in the point of resistance, it should be predicated that using the materials which are appraised by changing places with the concrete which has connective quality to provide sustainability. In this study it is aimed to increase the strength by providing impermeability of underground building elements and to provide resistance by the puzzlans which are added in the mixture of concrete by changing places for sustainable environment. To prove impermeability for sustainable environment, a certain percentage of pozzuolanas added to the concrete mix by switching through cement. Permeability of pressure water, capillarity and compressive strength evaluation tests were carried out.on concrete specimens with pozzuolana additive. Keywords: Foundation, building material, water isolation, sustainability <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/providingsus-161122085622-thumbnail.jpg?width=120&height=120&fit=bounds" /> To provide concrete industry and sustainability development, the amount of cement which releases harmfull gases and wastes while being produced should be reduced. Because using less cement than the amount which is gained as a result of mixture calculation cannot provide necessary performance in the point of resistance, it should be predicated that using the materials which are appraised by changing places with the concrete which has connective quality to provide sustainability. In this study it is aimed to increase the strength by providing impermeability of underground building elements and to provide resistance by the puzzlans which are added in the mixture of concrete by changing places for sustainable environment. To prove impermeability for sustainable environment, a certain percentage of pozzuolanas added to the concrete mix by switching through cement. Permeability of pressure water, capillarity and compressive strength evaluation tests were carried out.on concrete specimens with pozzuolana additive. Keywords: Foundation, building material, water isolation, sustainability

Providing the Sustainability with the Pozzuolana Concrete Used in Foundation from Zuhal ナ枴mナ歹k

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0 Fire resistant concrete design 2 /slideshow/fire-resistant-concrete-design-2/69396356 fireresistantconcretedesign2-161122085318
To minimize loss of life and property, structure of building should be established to allow time for evacuation from place location of the fire and to provide the structure and prevent the collapse of buildings having high fire risk rate. Considered most of buildings made by concrete in our country, integrity of concrete must be provided during the time period escape from fire. Particularly, buildings and fire compartments having high fire risk, must be designed to provide high strength and to minimize the loss of goods. Forming fireproof compartments may be accomplished by, treatment of the weak points and determinating temperature changes on the concrete components. Fire resistance of concrete increased by adding puzzolan additives. In the study, behavior of concrete exanimate at different temperatures and optimal concrete composition evaluated. Use of such concrete built with laboratories and flammable and chemical gases or liquids stores, will reduce the life losses significantly. Moreover, studies in the light of the findings obtained that, usage of concrete in those locations has a great significance, in the creation of a secure environment during evacuation and quenched period. Keywords: Concrete, Fire Resistant, Puzzolan Additives, High Performance concrete, Durability ]]>
To minimize loss of life and property, structure of building should be established to allow time for evacuation from place location of the fire and to provide the structure and prevent the collapse of buildings having high fire risk rate. Considered most of buildings made by concrete in our country, integrity of concrete must be provided during the time period escape from fire. Particularly, buildings and fire compartments having high fire risk, must be designed to provide high strength and to minimize the loss of goods. Forming fireproof compartments may be accomplished by, treatment of the weak points and determinating temperature changes on the concrete components. Fire resistance of concrete increased by adding puzzolan additives. In the study, behavior of concrete exanimate at different temperatures and optimal concrete composition evaluated. Use of such concrete built with laboratories and flammable and chemical gases or liquids stores, will reduce the life losses significantly. Moreover, studies in the light of the findings obtained that, usage of concrete in those locations has a great significance, in the creation of a secure environment during evacuation and quenched period. Keywords: Concrete, Fire Resistant, Puzzolan Additives, High Performance concrete, Durability ]]> Tue, 22 Nov 2016 08:53:18 GMT /slideshow/fire-resistant-concrete-design-2/69396356 zuhalmsimsek@slideshare.net(zuhalmsimsek) Fire resistant concrete design 2 zuhalmsimsek To minimize loss of life and property, structure of building should be established to allow time for evacuation from place location of the fire and to provide the structure and prevent the collapse of buildings having high fire risk rate. Considered most of buildings made by concrete in our country, integrity of concrete must be provided during the time period escape from fire. Particularly, buildings and fire compartments having high fire risk, must be designed to provide high strength and to minimize the loss of goods. Forming fireproof compartments may be accomplished by, treatment of the weak points and determinating temperature changes on the concrete components. Fire resistance of concrete increased by adding puzzolan additives. In the study, behavior of concrete exanimate at different temperatures and optimal concrete composition evaluated. Use of such concrete built with laboratories and flammable and chemical gases or liquids stores, will reduce the life losses significantly. Moreover, studies in the light of the findings obtained that, usage of concrete in those locations has a great significance, in the creation of a secure environment during evacuation and quenched period. Keywords: Concrete, Fire Resistant, Puzzolan Additives, High Performance concrete, Durability <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/fireresistantconcretedesign2-161122085318-thumbnail.jpg?width=120&height=120&fit=bounds" /> To minimize loss of life and property, structure of building should be established to allow time for evacuation from place location of the fire and to provide the structure and prevent the collapse of buildings having high fire risk rate. Considered most of buildings made by concrete in our country, integrity of concrete must be provided during the time period escape from fire. Particularly, buildings and fire compartments having high fire risk, must be designed to provide high strength and to minimize the loss of goods. Forming fireproof compartments may be accomplished by, treatment of the weak points and determinating temperature changes on the concrete components. Fire resistance of concrete increased by adding puzzolan additives. In the study, behavior of concrete exanimate at different temperatures and optimal concrete composition evaluated. Use of such concrete built with laboratories and flammable and chemical gases or liquids stores, will reduce the life losses significantly. Moreover, studies in the light of the findings obtained that, usage of concrete in those locations has a great significance, in the creation of a secure environment during evacuation and quenched period. Keywords: Concrete, Fire Resistant, Puzzolan Additives, High Performance concrete, Durability

Fire resistant concrete design 2 from Zuhal ナ枴mナ歹k

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0 An Evaluation of Hospital Evacuation Strategies with an Example /slideshow/tahliye-sratejisi-bir-rnek-zerinden/69396231 tahliyesratejisibirrnekzerinden-161122084930
Function, aesthetics, strength, durability and economic criteria are kept at the forefront in building design. But when fire safety is concerned, due to not enough understanding of the seriousness of fire safety and lack of sufficient knowledge of architects and engineer, provisions of regulation cannot reflect to building design. How the measures architects and engineers take on the hospitals such as required special fire safety measures and regulations and what level at which they apply regulations is one of the objectives of the study. In addition, intended to be implemented through the clinical portion of the building by identification of problems that arose in the history of fire, is the purpose of the study. Deficiencies of clinics have been identified in in two stages. In the first stage determined that the hospital is appropriate to the fire regulations or not. In the second stage interviews had been made with serving staff, doctor, nurse, hospital management, patient and their relatives about recent hospital fire to determinate the defiance and proposals have been in light of the obtained information. Application this is made believed to be an example to other hospitals in the process to ensure the fire safety of the clinic.]]>
Function, aesthetics, strength, durability and economic criteria are kept at the forefront in building design. But when fire safety is concerned, due to not enough understanding of the seriousness of fire safety and lack of sufficient knowledge of architects and engineer, provisions of regulation cannot reflect to building design. How the measures architects and engineers take on the hospitals such as required special fire safety measures and regulations and what level at which they apply regulations is one of the objectives of the study. In addition, intended to be implemented through the clinical portion of the building by identification of problems that arose in the history of fire, is the purpose of the study. Deficiencies of clinics have been identified in in two stages. In the first stage determined that the hospital is appropriate to the fire regulations or not. In the second stage interviews had been made with serving staff, doctor, nurse, hospital management, patient and their relatives about recent hospital fire to determinate the defiance and proposals have been in light of the obtained information. Application this is made believed to be an example to other hospitals in the process to ensure the fire safety of the clinic.]]> Tue, 22 Nov 2016 08:49:30 GMT /slideshow/tahliye-sratejisi-bir-rnek-zerinden/69396231 zuhalmsimsek@slideshare.net(zuhalmsimsek) An Evaluation of Hospital Evacuation Strategies with an Example zuhalmsimsek Function, aesthetics, strength, durability and economic criteria are kept at the forefront in building design. But when fire safety is concerned, due to not enough understanding of the seriousness of fire safety and lack of sufficient knowledge of architects and engineer, provisions of regulation cannot reflect to building design. How the measures architects and engineers take on the hospitals such as required special fire safety measures and regulations and what level at which they apply regulations is one of the objectives of the study. In addition, intended to be implemented through the clinical portion of the building by identification of problems that arose in the history of fire, is the purpose of the study. Deficiencies of clinics have been identified in in two stages. In the first stage determined that the hospital is appropriate to the fire regulations or not. In the second stage interviews had been made with serving staff, doctor, nurse, hospital management, patient and their relatives about recent hospital fire to determinate the defiance and proposals have been in light of the obtained information. Application this is made believed to be an example to other hospitals in the process to ensure the fire safety of the clinic. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tahliyesratejisibirrnekzerinden-161122084930-thumbnail.jpg?width=120&height=120&fit=bounds" /> Function, aesthetics, strength, durability and economic criteria are kept at the forefront in building design. But when fire safety is concerned, due to not enough understanding of the seriousness of fire safety and lack of sufficient knowledge of architects and engineer, provisions of regulation cannot reflect to building design. How the measures architects and engineers take on the hospitals such as required special fire safety measures and regulations and what level at which they apply regulations is one of the objectives of the study. In addition, intended to be implemented through the clinical portion of the building by identification of problems that arose in the history of fire, is the purpose of the study. Deficiencies of clinics have been identified in in two stages. In the first stage determined that the hospital is appropriate to the fire regulations or not. In the second stage interviews had been made with serving staff, doctor, nurse, hospital management, patient and their relatives about recent hospital fire to determinate the defiance and proposals have been in light of the obtained information. Application this is made believed to be an example to other hospitals in the process to ensure the fire safety of the clinic.

An Evaluation of Hospital Evacuation Strategies with an Example from Zuhal ナ枴mナ歹k

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0 Smoke evacuation in industrial building /slideshow/smoke-evacuation-in-industrial-building/69396157 smokeevacuationinindustrialbuilding-161122084700
Smoke occurs as a result of solid and liquid particles carried in the air from the burning of materials created from the combustion of gases. A dark colored smoke screen is formed. It may be toxic and explosive which make evacuation and responding to the fire more difficult. All these problems can be overcome with an appropriate smoke evacuation system. Smoke evacuation systems can be divided into two categories as natural and mechanical systems. However, they can vary according to needs, the people intensity; materials found in the structure and area, architectural features and design standards. The modelling based on the scenario planned for the most appropriate smoke evacuation system was carried out in compliance with international standards and local regulations. In this study, a vehicle part warehouse belonging to the Oyak Renault automobile factory was established inexactly the same way as the original. Using the CDF based PHONEICS system it was designed that a fire broke out in the warehouse and in the design, parking lot fire data were taken into consideration as given in British Standard (BS) standards ‘Components for smoke and heat control systems’ section 7. Vehicle parts found in the warehouse were in parallel with vehicles which had installation completed in the parking lot without a sprinkler. The smoke emerging as a result of the fire, which had an area of 5×5 m2 and 8MW magnitude and broke out in the warehouse (without sprinkler) whose area and volume were 4680m2 and 37206m3 respectively, was tested with 6 smoke evacuation fans activated at the beginning of the fire. The Total Fan capacity was designed as 10 volume/hour and 15 volume/hour, evaluated according to the maximum CO amount, vision and temperature by simulation for both situations. As a result of the tests performed, ideal visibility]]>
Smoke occurs as a result of solid and liquid particles carried in the air from the burning of materials created from the combustion of gases. A dark colored smoke screen is formed. It may be toxic and explosive which make evacuation and responding to the fire more difficult. All these problems can be overcome with an appropriate smoke evacuation system. Smoke evacuation systems can be divided into two categories as natural and mechanical systems. However, they can vary according to needs, the people intensity; materials found in the structure and area, architectural features and design standards. The modelling based on the scenario planned for the most appropriate smoke evacuation system was carried out in compliance with international standards and local regulations. In this study, a vehicle part warehouse belonging to the Oyak Renault automobile factory was established inexactly the same way as the original. Using the CDF based PHONEICS system it was designed that a fire broke out in the warehouse and in the design, parking lot fire data were taken into consideration as given in British Standard (BS) standards ‘Components for smoke and heat control systems’ section 7. Vehicle parts found in the warehouse were in parallel with vehicles which had installation completed in the parking lot without a sprinkler. The smoke emerging as a result of the fire, which had an area of 5×5 m2 and 8MW magnitude and broke out in the warehouse (without sprinkler) whose area and volume were 4680m2 and 37206m3 respectively, was tested with 6 smoke evacuation fans activated at the beginning of the fire. The Total Fan capacity was designed as 10 volume/hour and 15 volume/hour, evaluated according to the maximum CO amount, vision and temperature by simulation for both situations. As a result of the tests performed, ideal visibility]]> Tue, 22 Nov 2016 08:47:00 GMT /slideshow/smoke-evacuation-in-industrial-building/69396157 zuhalmsimsek@slideshare.net(zuhalmsimsek) Smoke evacuation in industrial building zuhalmsimsek Smoke occurs as a result of solid and liquid particles carried in the air from the burning of materials created from the combustion of gases. A dark colored smoke screen is formed. It may be toxic and explosive which make evacuation and responding to the fire more difficult. All these problems can be overcome with an appropriate smoke evacuation system. Smoke evacuation systems can be divided into two categories as natural and mechanical systems. However, they can vary according to needs, the people intensity; materials found in the structure and area, architectural features and design standards. The modelling based on the scenario planned for the most appropriate smoke evacuation system was carried out in compliance with international standards and local regulations. In this study, a vehicle part warehouse belonging to the Oyak Renault automobile factory was established inexactly the same way as the original. Using the CDF based PHONEICS system it was designed that a fire broke out in the warehouse and in the design, parking lot fire data were taken into consideration as given in British Standard (BS) standards ‘Components for smoke and heat control systems’ section 7. Vehicle parts found in the warehouse were in parallel with vehicles which had installation completed in the parking lot without a sprinkler. The smoke emerging as a result of the fire, which had an area of 5×5 m2 and 8MW magnitude and broke out in the warehouse (without sprinkler) whose area and volume were 4680m2 and 37206m3 respectively, was tested with 6 smoke evacuation fans activated at the beginning of the fire. The Total Fan capacity was designed as 10 volume/hour and 15 volume/hour, evaluated according to the maximum CO amount, vision and temperature by simulation for both situations. As a result of the tests performed, ideal visibility <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/smokeevacuationinindustrialbuilding-161122084700-thumbnail.jpg?width=120&height=120&fit=bounds" /> Smoke occurs as a result of solid and liquid particles carried in the air from the burning of materials created from the combustion of gases. A dark colored smoke screen is formed. It may be toxic and explosive which make evacuation and responding to the fire more difficult. All these problems can be overcome with an appropriate smoke evacuation system. Smoke evacuation systems can be divided into two categories as natural and mechanical systems. However, they can vary according to needs, the people intensity; materials found in the structure and area, architectural features and design standards. The modelling based on the scenario planned for the most appropriate smoke evacuation system was carried out in compliance with international standards and local regulations. In this study, a vehicle part warehouse belonging to the Oyak Renault automobile factory was established inexactly the same way as the original. Using the CDF based PHONEICS system it was designed that a fire broke out in the warehouse and in the design, parking lot fire data were taken into consideration as given in British Standard (BS) standards ‘Components for smoke and heat control systems’ section 7. Vehicle parts found in the warehouse were in parallel with vehicles which had installation completed in the parking lot without a sprinkler. The smoke emerging as a result of the fire, which had an area of 5×5 m2 and 8MW magnitude and broke out in the warehouse (without sprinkler) whose area and volume were 4680m2 and 37206m3 respectively, was tested with 6 smoke evacuation fans activated at the beginning of the fire. The Total Fan capacity was designed as 10 volume/hour and 15 volume/hour, evaluated according to the maximum CO amount, vision and temperature by simulation for both situations. As a result of the tests performed, ideal visibility

Smoke evacuation in industrial building from Zuhal ナ枴mナ歹k

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0 FIRE SAFETY PRECAUTIONS TAKEN AS A RESULT OF FIRE ENVIRONMENT ANALYSIS IN INTENSIVE CARE UNITS AND PATHOLOGY LABORATORIES1 /slideshow/fire-safety-precautions-taken-as-a-result-of-fire-environment-analysis-in-intensive-care-units-and-pathology-laboratories1/69396086 yogun-bakim-ve-patoloji-lab-161122084425
Explosives and chemicals with low combustion points, which are found in pathology laboratories in hospitals increase the fire risk. Intensive care units are one of the most risky areas in terms of user movement and evacuation strategy. This study, aimed to provide a safe environment by preventing smoke diffusion within the shortest possible time in the most economical way, by determining the fire risk of a building as a result of the analysis of environmental conditions created during a fire. It was also aimed to establish passive precautions by determining locations high fire risk places. A fire scenario was created to compare the efficiency of the recommended system with the measurements of the movement, intensity, environment temperature, visibility distance and toxicity percentage of the smoke in the laboratory and the results were evaluated by modelling with the Phonics Flair program]]>
Explosives and chemicals with low combustion points, which are found in pathology laboratories in hospitals increase the fire risk. Intensive care units are one of the most risky areas in terms of user movement and evacuation strategy. This study, aimed to provide a safe environment by preventing smoke diffusion within the shortest possible time in the most economical way, by determining the fire risk of a building as a result of the analysis of environmental conditions created during a fire. It was also aimed to establish passive precautions by determining locations high fire risk places. A fire scenario was created to compare the efficiency of the recommended system with the measurements of the movement, intensity, environment temperature, visibility distance and toxicity percentage of the smoke in the laboratory and the results were evaluated by modelling with the Phonics Flair program]]> Tue, 22 Nov 2016 08:44:25 GMT /slideshow/fire-safety-precautions-taken-as-a-result-of-fire-environment-analysis-in-intensive-care-units-and-pathology-laboratories1/69396086 zuhalmsimsek@slideshare.net(zuhalmsimsek) FIRE SAFETY PRECAUTIONS TAKEN AS A RESULT OF FIRE ENVIRONMENT ANALYSIS IN INTENSIVE CARE UNITS AND PATHOLOGY LABORATORIES1 zuhalmsimsek Explosives and chemicals with low combustion points, which are found in pathology laboratories in hospitals increase the fire risk. Intensive care units are one of the most risky areas in terms of user movement and evacuation strategy. This study, aimed to provide a safe environment by preventing smoke diffusion within the shortest possible time in the most economical way, by determining the fire risk of a building as a result of the analysis of environmental conditions created during a fire. It was also aimed to establish passive precautions by determining locations high fire risk places. A fire scenario was created to compare the efficiency of the recommended system with the measurements of the movement, intensity, environment temperature, visibility distance and toxicity percentage of the smoke in the laboratory and the results were evaluated by modelling with the Phonics Flair program <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/yogun-bakim-ve-patoloji-lab-161122084425-thumbnail.jpg?width=120&height=120&fit=bounds" /> Explosives and chemicals with low combustion points, which are found in pathology laboratories in hospitals increase the fire risk. Intensive care units are one of the most risky areas in terms of user movement and evacuation strategy. This study, aimed to provide a safe environment by preventing smoke diffusion within the shortest possible time in the most economical way, by determining the fire risk of a building as a result of the analysis of environmental conditions created during a fire. It was also aimed to establish passive precautions by determining locations high fire risk places. A fire scenario was created to compare the efficiency of the recommended system with the measurements of the movement, intensity, environment temperature, visibility distance and toxicity percentage of the smoke in the laboratory and the results were evaluated by modelling with the Phonics Flair program

FIRE SAFETY PRECAUTIONS TAKEN AS A RESULT OF FIRE ENVIRONMENT ANALYSIS IN INTENSIVE CARE UNITS AND PATHOLOGY LABORATORIES1 from Zuhal ナ枴mナ歹k

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