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The purpose of this paper is to check and fill the gap between the existing fire safety regulations for newly built tall buildings in Bulgaria and those in areas with rapid economic growth in the Asia-Oceania regions like the Hong Kong Special Administrative Region and Mainland China, by making comparative analysis and identifying good practices. The main focus is on the development of fire safety designs, facilities and management, which shall be recognized as essential parts of facility management in tall buildings.

Bulgarian regulations are analyzed and then compared with those in the Hong Kong Special Administrative Region and Mainland China. In addition, the scientific aspect of fire load density in the fire codes is discussed. The possibility of implementing a fire engineering approach to supplement prescriptive codes is outlined. The essential roles of fire safety management and fire safety culture are presented.

Key points and recommendations that are worthy for discussion about incorporation in the Bulgarian tall buildings fire safety requirements are upgraded requirements for fire load density, detection and sprinkler systems in tall residential buildings, refuge floors, ventilation/air conditioning control systems, full-scale burning tests and fire engineering approach. The importance of fire safety management is emphasized as a main, key component in facility management.

The research is the first study focusing on implementation of additional and specific fire safety regulations for tall buildings in Bulgaria.

The extreme nature of fire makes structural fire engineering unique in that the load actions dictating design are intense and neither geographically nor seasonally bound. Simply, fire can break out anywhere, at any time and for any number of reasons. Despite the apparent need, the fire design of structures still relies on expensive fire tests, complex finite element simulations and outdated procedures with little room for innovation. This paper aims to discuss the aforementioned issues.

This primer highlights the latest state of the art in this area with regard to performance-based design in fire structural engineering. In addition, this short review also presents a series of examples of successful implementation of performance-based fire design of structures from around the world.

A comparison between global efforts clearly shows the advances put forth by European and Oceanian efforts as opposed to the rest of the world. In addition, it can be clearly seen that most performance-based fire designs are related to steel and composite structures.

In one study, this paper presents a concise and global view to performance-based fire design of structures from success stories from around the world.

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.

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.

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.

While the survey is small, it represents a significant proportion of a dwindling stock of nineteenth century heritage housing in public ownership in Sydney.

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.

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.

The research provides original data on the level of fire safety risk in a regional cluster of heritage housing.

Consequent to an arson fire killing 17 persons in a Hong Kong karaoke in 1997, fire safety provisions in karaokes has raised public concern. Government officers and the services industry have agreed to upgrade fire safety provisions. But before deciding what to do, facilities for the existing karaokes are the subject of a review. A simple fire safety ranking system was proposed in 1999 for existing karaokes. They were grouped on the basis of their fire facilities and management system. The system was criticized for being inapplicable to local industry, as a result of failing to solicit views from the services industry. That system has since been revised. Trial runs in 19 existing karaokes were carried out in 2000. Now, the system is more suited for local use as it is simple. Hence advocates the use of the system to the Hong Kong Fire Authority for assessing fire safety of existing karaokes.

This paper reports some interim findings from organisational research into site fire safety which looks at the relevance of Contractor and Facilities Manager attitudes to safety as a component of the overall safety process. Presents a discussion on some of the practical problems associated with Facilities Managers managing the maintenance of fire safety during alterations works. Commences with an illustration of the Facilities Management context of site fire safety that draws upon a number of relevant fire events. It is intended to provoke a wider debate on the relevance of the Facilities Management role in protecting the business. A Project Safety Plan checklist is suggested for Facilities Managers, based on the authors’ review of existing construction site fire safety guidance and codes of practice. Explores a broadening of the Facilities Management role, as interface manager, which in most cases of refurbishment and alterations will constitute the common managerial link to the core business.

Proper implementation of fire safety management is a key to providing total fire safety. In this paper, a regulatory framework related to fire safety management in buildings in Hong Kong has been reviewed. Current statutory requirements covering both administrative and technical aspects of fire safety management elements are outlined. Responsibilities of different management parties in a typical multiple occupancies commercial building on operating the fire safety measures are discussed. It is observed that only maintenance of active fire protection systems are emphasised at the moment. A more detailed fire safety plan should be formulated with clear legal liability for undertaking management responsibilities.

Although there is a growing international movement toward the use of engineered or performance‐based fire safety design, current practice is dominated by prescriptive‐based design. In prescriptive‐based fire safety design, only those requirements prescribed by appropriate building regulations, installation standards, or approved documents tend to be applied. Because these requirements typically include fire protection measures, such as fire detection and signaling systems, automatic sprinkler systems, fire compartmentation, and emergency egress systems, there is often an assumption that occupants, employees, and users of a facility will be safe should a fire occur. However, there are a variety of factors that could affect the actual fire safety of a facility that comply with the appropriate regulations. Fuel type, loading, configuration, and location can change, leading to an increase in fire risk. Occupants may not see, hear or understand fire alarm signals as fire alarm signals. Fire detection and signaling systems, fire suppression systems, or smoke management systems may not be 100 percent functional at all times. Fortunately, many of these factors can be controlled for, if they are understood and addressed, within a fire safety management plan. To assist with such planning, this paper discusses various human behavior and response issues that may affect life safety during a fire or emergency, and provides suggestions for integrating these issues into a fire safety management plan.

This paper aims to describe current trends in probabilistic structural fire engineering and provides a comprehensive summary of the state-of-the-art of performance-based structural fire engineering (PSFE).

PSFE has been introduced to overcome the limitations of current conventional design approaches used for the design of fire-exposed structures, which investigate assumed worst-case fire scenarios and include multiple thermal and structural analyses. PSFE permits buildings to be designed in relation to a level of life safety or economic loss that may occur in future fire events with the help of a probabilistic approach.

This paper brings together existing research on various sources of uncertainty in probabilistic structural fire engineering, such as elements affecting post-flashover fire development, material properties, fire models, fire severity, analysis methods and structural reliability.

Prediction of economic loss would depend on the extent of damage, which is further dependent on the structural response. The representative prediction of structural behaviour would depend on the precise quantification of the fire hazard. The incorporation of major uncertainty sources in probabilistic structural fire engineering is explained, and the detailed description of a pioneering analysis method called incremental fire analysis is presented.

The purpose of this paper is to explore contemporary attitudes amongst UK construction professionals regards fire safety post the Grenfell Tower disaster. Specifically, the research examines practitioner’s perceptions of fire safety design, material specification, construction and maintenance of high-rise blocks throughout a building’s whole life cycle.

A multi-methodology approach was adopted that utilises a mix of research methods. Extant literature and media content is used as a secondary data source, providing a more insightful interpretivist analysis – the results of which guided the development of the survey’s main question set. Primary survey data are sourced from structured interviews and questionnaires completed by participating industry professionals and built environment undergraduate students using non-representative sampling methods. In addition, a Grenfell Tower special advisory panel member was interviewed to add further validity to the overall findings.

The quantitative findings present evidence to suggest that the Grenfell disaster (and media storm that has surrounded this event) has raised the general level of fire safety knowledge and competency amongst construction professionals. However, qualitative feedback from the special advisory panel member suggests specific fire prevention knowledge remains elusive within both industry and taught programmes at Higher Education Institutes. As a consequence, changes in the taught curriculum are proposed together with an extension of the role of facilities managers in practice to cover fire safety in greater depth.

This paper provides thoughtful insights into the contemporary discourse on fire safety within the UK construction industry. The research also provides critical suggestions to both industry and policy makers which seek to prevent a repeat tragedy occurring again.

This study is to investigate the fire safety of textile and clothing materials. It also assesses the flammability for textiles in general.

With the increase in big fires, accidental or non-accidental, people are worrying about the fire behaviour of combustibles. The flammability of textile and clothing materials is a great concern. Appropriate tests should be developed to assess textile and clothing materials to ensure they are safe in a fire. In fact, textile products should satisfy some fire safety criteria depending on their uses. There are specified flammability requirements on selected products, though whether these are good enough for assessing modern textile materials should be watched.

Typical textile materials with and without fire retardants protection were selected for assessing the fire behaviour with a cone calorimeter. High radiative heat flux up to 70 kWm^‒2 was applied to assess those selected textile materials. A cone calorimeter is suggested to be the minimum requirement, though some full-scale burning tests are necessary for some purposes. Heat release rate and flame spreading measures are proposed in ranking the fire safety of textile materials.