Relevant bibliographies by topics / Safety and health at construction site

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
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Academic literature on the topic 'Safety and health at construction site'

Author: Grafiati
Published: 4 June 2021
Last updated: 2 February 2022

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Journal articles on the topic "Safety and health at construction site"

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B., Hagaensh. "Analysis of Scaffolding Safety in Construction Site and Preventive Actions for Implementation of Safety." International Journal of Psychosocial Rehabilitation 24, no. 4 (April 30, 2020): 7906–12. http://dx.doi.org/10.37200/ijpr/v24i4/pr2020740.

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Rawlinson, Fred, and Peter Farrell. "UK construction industry site health and safety management." Construction Innovation 10, no. 4 (October 12, 2010): 435–46. http://dx.doi.org/10.1108/14714171011083597.

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Dėjus, Titas, and Jurgita Antuchevičienė. "ASSESSMENT OF HEALTH AND SAFETY SOLUTIONS AT A CONSTRUCTION SITE." Journal of Civil Engineering and Management 19, no. 5 (October 29, 2013): 728–37. http://dx.doi.org/10.3846/13923730.2013.812578.

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To design solutions for occupational safety at a construction site for the construction technology project, an occupational hazard was assessed. Possible solutions for occupational safety depend on the number of criteria such as hazardous factors from which workers must be protected; the number of danger zones; architectural-design and structural solutions of a building; types of technical protection measures, etc. A large set of solutions for occupational safety predetermines the number of respective typical (or repeated) solutions, which are based on specific technical safety measures and are applicable depending on a hazardous factor; besides, it determines systematisation of the solutions on these grounds. It is suggested to use the Multiple Criteria Decision Making (MCDM) technique for assessment and selection of appropriate solutions for occupational safety. The authors propose formulating assessed alternatives from the typical solutions to ensure their quality and then apply the entropy method for determining relative significances of evaluation criteria and, finally, use Weighted Aggregated Sum Product Assessment (WASPAS) method for ranking of alternatives.
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Onubi, Hilary Omatule, Nor'Aini Yusof, and Ahmad Sanusi Hassan. "Adopting green construction practices: health and safety implications." Journal of Engineering, Design and Technology 18, no. 3 (November 16, 2019): 635–52. http://dx.doi.org/10.1108/jedt-08-2019-0203.

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Purpose This study aims to assess the impact of adopting selected green construction site practices on the health and safety performance of the construction projects. The impact of storm-water management, energy management and construction waste management on projects health and safety performance was also examined. Design/methodology/approach A survey was conducted to collect information from Class A contractors in Nigeria, and 168 usable responses were received. The data were analysed using the partial least squares (PLSs) structural equation modelling technique. Findings The findings indicate that energy management and waste management practices have significant effects on the health and safety performance of the construction projects, while storm-water management has no effect. Practical implications Project and site managers need to take into consideration the skill set of their workforce when attempting to adopt new innovative construction strategies the workers are unfamiliar with in a changing construction environment. There is also a need for more training of workers on generic and specific green skills to avoid health and safety challenges on site. Originality/value The findings of this study make significant contribution to the debate on the health and safety performance of green projects, as only a few studies have been conducted on this topic. The empirical relationships between the constructs of energy management, waste management, storm-water management and health and safety performance are unique in the context of other related studies and have advanced the body of existing knowledge.
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Zhao, Xiang Dong. "The Occupational Health and Safety Management of Workers in Building Construction Site." Applied Mechanics and Materials 501-504 (January 2014): 2695–99. http://dx.doi.org/10.4028/www.scientific.net/amm.501-504.2695.

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The work of occupational health and safety about construction industry has increasingly aroused peoples' attention ,so this article puts forward the problems existing in the occupational health and safety management of construction industry as well as the countermeasures and suggestions through the analysis of the construction labours' common occupational injury accident of the present stage in our country and the status quo in the aspects of professional physical,mental health and safety ,which is to develop the workers' way of life on safety,civilization and health.
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Ransford Tetteh, Agu, and Ye Liang. "Investigating the Occupational Health and Safety Practices in High-Rise Building Construction Sites." International Journal of Science and Research (IJSR) 9, no. 4 (April 5, 2020): 76–81. http://dx.doi.org/10.21275/sr20313084800.

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Spillane, John, and Lukumon O. Oyedele. "Strategies for effective management of health and safety in confined site construction." Construction Economics and Building 13, no. 4 (December 11, 2013): 50–64. http://dx.doi.org/10.5130/ajceb.v13i4.3619.

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Purpose: The overall aim of this research is to identify and catalogue the numerous managerial strategies for effective management of health and safety on a confined, urban, construction site. Design/Methodology/Approach: This is achieved by utilising individual interviews, focus groups discussion on selected case studies of confined construction sites, coupled with a questionnaire survey. Findings: The top five key strategies include (1) Employ safe system of work plans to mitigate personnel health and safety issues; (2) Inform personnel, before starting on-site, of the potential issues using site inductions; (3) Effective communication among site personnel; (4) Draft and implement an effective design site layout prior to starting on-site; and (5) Use of banksman (traffic co-ordinator) to segregate personnel from vehicular traffic. Practical Implication: The construction sector is one of the leading industries in accident causation and with the continued development and regeneration of our urban centres, confined site construction is quickly becoming the norm - an environment which only fuels accident creation within the construction sector. Originality/Value: This research aids on-site management that requires direction and assistance in the identification and implementation of key strategies for the management of health and safety, particularly in confined construction site environments.
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Hardison, Dylan, Michael Behm, Matthew R. Hallowell, and Hamid Fonooni. "Identifying construction supervisor competencies for effective site safety." Safety Science 65 (June 2014): 45–53. http://dx.doi.org/10.1016/j.ssci.2013.12.013.

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Al-Bayati, Ahmed Jalil. "Impact of Construction Safety Culture and Construction Safety Climate on Safety Behavior and Safety Motivation." Safety 7, no. 2 (May 18, 2021): 41. http://dx.doi.org/10.3390/safety7020041.

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The construction industry is known for its disappointing safety performance. Therefore, rethinking current safety management frameworks is crucial. This study assesses a newly proposed construction safety culture and climate framework that aims to overcome the present ambiguity in the definitions and measurement of construction safety culture and construction safety climate. The goal is to provide a practical construction safety culture and safety climate framework that fits the construction industry’s needs. A survey was designed to validate the proposed framework and assess its influence on safety behavior and safety motivation. The survey was completed by 275 construction practitioners. The findings suggest that the construction safety culture initiates and maintains the construction safety climate. Similarly, the construction safety culture, which is represented by the actions of upper management and safety personnel, significantly contributes to higher levels of safety behavior and safety motivation, whereas the construction safety climate does not. Accordingly, this study highlights the importance of the construction safety culture’s influence on overall workplace culture. This study’s contribution to the body of knowledge is critical to improving construction workplaces’ overall safety performance. The findings can be strategically used by construction firms to address the construction industry’s higher rates of fatal and nonfatal injuries. Finally, the results obtained support the newly proposed framework of construction safety culture and climate, which, in turn, helps the industry better manage overall site safety.
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Shamsudin, Nurshamshida Md, Nik Hasnaa NIk Mahmood, Abdul Rahman Abdul Rahim, Syazli Fathi Mohamad, and Maslim Masrom. "Meeting the Millennial: Virtual Construction Site for Site Safety Personnel." Advanced Science Letters 24, no. 11 (November 1, 2018): 8687–89. http://dx.doi.org/10.1166/asl.2018.12325.

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Dissertations / Theses on the topic "Safety and health at construction site"

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Alhajeri, M. "Health and safety in the construction industry : challenges and solutions in the UAE." Thesis, Coventry University, 2011. http://curve.coventry.ac.uk/open/items/8ef107a7-8740-4cb5-ad55-07449f57cad4/1.

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Health and safety issues have always been a major problem and concern in the construction industry. Wherever reliable records are available, construction is found to be one of the most dangerous on health and safety criteria, particularly in developing countries. Efforts have been made to address this problem, but the results have been far from satisfactory, as construction accidents continue to dominate the overall construction industry. Despite the programs implemented by government authorities and measures introduced by companies themselves, the number of construction accidents still remains alarmingly high. In developing countries, safety rules usually do not exist; if they do, the regulatory authority is usually very weak in implementing such rules effectively. The UAE is one of developing countries that are currently enjoying a strong growth in construction activities. Unfortunately, some sectors of its construction industry suffer from poor safety and health conditions. Any framework of the existing occupational and health conditions is fragmented and inadequately enforced, making construction sites more hazardous. It may even be argued that relevant regulations are outdated and irrelevant in day-to-day construction operations. From this perspective this research explores the approved methods adopted in the UK in order to improve the existing code of practice in the UAE and thus introduce the foundations on which appropriate health and safety systems may be built. A framework for Health and Safety management in the UK is suggested. To reach this objective an overview of the published materials as well as the legislation has been undertaken. Questionnaires were designed and distributed to potential construction industry players and interview sessions have been conducted to meet the first objective of the project which to determine the health and safety measures currently applied on construction sites. In addition, structured interviews were carried out with selected managers from a selection of construction and oil companies, medium and large size. This thesis specifically, it investigates the safety perceptions, attitudes, and behaviour of construction workers and management safety practices. Based upon the analysis of the results, this study has demonstrated that the majority of those questioned UAE construction companies have a poor degree of risk awareness and do not seems to take health and safety as an important issue.
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Andersson, Christine, and Sofia Linderdahl. "Ett förslag till arbetsmiljöplan för underhållsarbete inom bygg : en förenkling av rutiner för arbetsmiljöarbetet." Thesis, Högskolan i Gävle, Avdelningen för bygg- energi- och miljöteknik, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-21638.

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Enligt Arbetsmiljöverket förekommer olyckor bland byggnadsarbetare dubbelt så ofta som hos andra arbetstagare. Under år 2015 hade byggindustrin över tre tusen arbetsolyckor som resulterat i sjukfrånvaro, något som motsvarade elva procent av Sveriges totala anmälda arbetsplatsolyckor med sjukfrånvaro. Med tanke på vad en arbetare inom byggnads- och anläggningsbranschen utsätter sig för i det dagliga arbetet är det uppenbart att fokus måste riktas mot säkerheten. Denna studie har utförts på byggavdelningen för underhållsarbete på BillerudKorsnäs Gävle Bruk, där ett förbättringsbehov i det befintliga arbetsmiljöarbetet i upprättandet av arbetsmiljöplaner har konstaterats. Syfte och mål med studien är att skapa ett förslag till en mall för arbetsmiljöplan som är användarvänlig och inkluderar de 13 arbeten med särskild risk som omnämns i AFS 1999:3. En förhoppning är att mallen kommer att bidra till ett förenklande av befintliga rutiner i arbetsmiljöarbetet för byggnadsarbetare och leda till ökad säkerhet på arbetsplatsen samt färre arbetsolyckor. För att få bättre förståelse för hur byggnadsarbetare på BillerudKorsnäs Gävle Bruk ser på arbetsmiljöarbetet och risker på arbetsplatsen har semi-strukturerade intervjuer genomförts, som tillsammans med statistik över olycksfall och tillbud utgjort studiens resultat. Utöver det har en litteraturgranskning genomförts för att ge en överblick över tidigare studier inom området. Vikten i att genomföra riskbedömningar bekräftades genom intervjuerna och blir tydlig eftersom förutsättningarna i det dagliga arbetet inom byggbranschen varierar i stor utsträckning. Varje arbetssituation och risk är unik, det går därför inte att riskinventera endast de 13 arbeten med särskild risk. Intervjuerna har bekräftat ett behov av en förenkling och förbättring i processen med att upprätta arbetsmiljöplaner. En mall för arbetsmiljöplaner har skapats och ska omfatta hur arbetsmiljöarbetet ska bedrivas såsom generell information om arbetet samt en riskbedömning.
According to the Swedish Work Environment Authority (Arbetsmiljöverket), accidents among construction workers occur twice as often as other workers. In 2015 the construction industry had over three thousand work accidents resulting in sick leave, which corresponded to eleven percent of Swedens total reported work accidents with sick leave. Considering what a worker in the building and construction industry expose themselves to in their daily work, it is obvious that focus must be towards safety. This study has been carried out on the building department for maintenance work at BillerudKorsnäs Gävle Bruk. At the company, there is a need for improving the establishment of safety and health plans within the existing working environment work. The aim and objective of the study is to create a draft template for the safety and health plan that is user friendly and includes the 13 works with special risks according to AFS 1999:3. Hopefully the template will contribute to a simplification of existing procedures in the construction working environment planning, lead to increased safety on site and fewer work accidents. To receive a better understanding of the viewpoint of BillerudKorsnäs Gävle Bruks construction workers regarding working environment and risks on site, semi-structured interviews were conducted and together with statistics on accidents and incidents, served as the studies results. In addition, a literature review has been conducted to provide an overview of previous studies in the field. The importance in carrying out risk assessments has been confirmed through interviews and becomes more evident as the conditions in the daily construction work varies in large proportion. Every work situation and risk is unique, therefore a risk assessment can not only consist of the 13 works with special risks. The interviews have confirmed the need for a simplification and improvement in the process of establishing a safety and health plan. A template for the safety and health plan should include how the work environment shall be conducted such as general information about the work and a risk assessment.
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Yousef, Jivara. "ARBETSMILJÖ OCH SÄKERHET : Systematiskt arbetsmiljöarbete på byggarbetsplatser i Mellansverige." Thesis, Mälardalens högskola, Akademin för ekonomi, samhälle och teknik, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-36095.

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The construction industry is a large industry with approximately 320,000 employees according to the Swedish construction industry. As the work environment at construction sites affects a large number of individuals, it is important that there is good security at the construction sites, in order to reduce and prevent workers in the construction industry from being injured. The work thesis has been carried out in collaboration with Tuna Förvaltning & Entreprenad AB with the aim of creating better conditions for work environment and strategic safety work at Tuna Förvaltning & Entreprenad AB's construction sites, as well as highlighting risks and safety aspects. This qualitative study has been carried out at Tuna Förvaltning & Entreprenad AB, where semi-structured interviews and observations were conducted to then use the information as the foundation of the study. The work has also been based on reviewed literature studies in the form of pre-review. In order to have a good working environment and safety at the construction sites, a number of factors are involved. The study shows that time, cleaning, communication, education and experience are the factors that have the greatest impact on the work environment and safety. According to some of Tuna Förvaltning & Entreprenad AB's workforce, there will always be deficiencies in safety, while some claim that a "zero vision" is possible to reach, so far no occupational accidents has occurred at Tuna Förvaltning & Entreprenad AB's construction sites, however, it seems that the subject does not get enough time, resources and like to prevent future accidents with "safety-first". The Work Environment Authority requires employers to systematically work with environment and safety issues with a vision of "zero tolerance", in which is strengthened by the work environment act. The interviews show that the viewpoint of the working environment differs depending on what perspective is being analyzed, for example, the supervisor has a wider perspective and greater responsibility whilst the professional worker has more narrow perspective and less responsibility. The survey shows that planning and preventive work can prevent workplace accidents with a systematic follow-up. In order for professionals and supervisors to understand the risks and preventive work they should be educated and thus gain an awareness of the problem. Improvement needs to create more awareness and prevention for work environment and safety with "safety deadline" have always been a goal to reach. One hope is that the working environment and security policy will contribute to improved security at the company's construction sites. systematic environmental work simplified by existing routines in environmental work for construction workers, leads to increased workplace safety and fewer occupational accidents.
Byggbranschen är en stor bransch med ca 320 000 sysselsatta personer enligt Sveriges byggindustrier. Då arbetsmiljön på byggarbetsplatserna påverkar ett stort antal individer är det viktigt att det råder en god säkerhet på byggarbetsplatserna, för att minska och förhindra att de anställda inom byggbranschen inte kommer till skada.Examensarbetet har utförts i samarbete med Tuna Förvaltning & Entreprenad AB i syfte att skapa bättre förutsättningar för arbetsmiljö och säkerhetsarbete ute på Tuna Förvaltning & Entreprenad AB:s byggarbetsplatser samt att belysa risker och säkerhetsaspekter. Kvalitativa studie har utförts på Tuna Förvaltning & Entreprenad AB:s byggarbetsplatser där semi-strukturerade intervjuer och observationer utförts för att sedan använda informationen som grundpelare i studien.För att det ska råda god arbetsmiljö och säkerhet på byggarbetsplatserna spelar ett flertal faktorer in. Studiens resultat visar att tid, städning, kommunikation, utbildning och erfarenhet är de faktorer som har störst inverkan på arbetsmiljön och säkerheten. Enligt en del av yrkesarbetarna på Tuna Förvaltning & Entreprenad AB kommer det alltid att finnas brister inom säkerheten medan en del påstår att en ”noll-vision” är möjlig att nå. Tuna Förvaltning & Entreprenad AB:s ett ungt företag och hittills har inga större arbetsolyckor inträffat på deras byggarbetsplatser. Emellertid tycker en del att ämnet inte får tillräckligt med tid, resurser och dylikt för att förhindra framtida olyckor med ”safety first”. Arbetsmiljöverket ställer krav på att arbetsgivaren skall arbeta systematiskt med arbetsmiljö och säkerhetsfrågor med en vision om ”noll-tolerans” vilket styrks av arbetsmiljölagen.Intervjuerna visar att synen på arbetsmiljön skiljer sig åt beroende på vilket perspektiv som analyseras, exempelvis har arbetsledare ett bredare perspektiv och större ansvar medan yrkesarbetaren har ett smalare perspektiv och mindre ansvar.Undersökningen visar att planering och förebyggande arbete kan förhindra arbetsplatsolyckor med ett systematiskt uppföljningsarbete. För att yrkesarbetare och arbetsledare skall ha förståelse för risker och förebyggande arbete bör de utbildas och därmed erhålla en medvetenhet kring problemet.Förbättringsbehov föreligger när det gället att skapa mer medvetenhet och ha ett förebyggande syfte för arbetsmiljö och säkerhet med ”safety first”. En förhoppning är att en bättre arbetsmiljö och en ny upprättad säkerhetspolicy kommer att bidra till en förbättrad säkerhet på företagets byggarbetsplatser. Det systematiska arbetsmiljöarbetet med förbättrad befintliga rutiner i arbetsmiljöarbetet för byggnadsarbetare bör leda till ökad säkerhet på arbetsplatsen samt undvika arbetsolyckor.
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Santos, Camila Rodrigues Ferreira Guimarães. "Diagnóstico de sistemas de proteção coletiva em canteiros de obras na região de São Carlos." Universidade Federal de São Carlos, 2013. https://repositorio.ufscar.br/handle/ufscar/4684.

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In the context of the construction industry today, it is noted that there are a lot of accidents at work, making it thus very dangerous. In order to minimize the consequences of these accidents occurred and the quantities we seek to develop with this study the diagnostic use of Collective Protection Systems (CPS) used in the construction sites in the region of São Carlos focusing in more depth in the system guardrail and footer and platforms protection. Through a network of collaborative research It was elaborated a checklist, based on the normative references have been studied mainly in NR 18 - Conditions and working environment in the construction industry, to evaluate the use of CPS at construction sites. In order to improve the checklist developed was applied in a pilot study and, based on the results obtained, we could make suggestions for improvement. Then began the case studies belonging to the region of São Carlos contemplating nine construction sites. The case studies spread to close cities in the region, as Ribeirão Preto, Jaboticabal and Limeira. After application of the list in the eight sites, we elaborated a list summary and from there, was analyzed the data using photographic records and graphics. The average percentage care of the checklist was 79%, thus showing that many normative items were met, but there is a percentage to improvement of sites in the study region. Finally, after diagnosis the use of CPS drew up guidelines for the choice and use of CPS specific system guardrail and footer and protection platform. Furthermore, it was noted that the lack of use or incorrect use of the CPS at construction sites, often does not occur by technological problems, but by failures in administrative directives or inspection existing in the industry.
No contexto da indústria da construção civil atual, nota-se que há uma grande quantidade de acidentes de trabalho, que a torna, desta forma, muito perigosa. Visando minimizar as consequências destes acidentes e as quantidades ocorridas, busca-se desenvolver com este trabalho o diagnóstico do uso dos Sistemas de Proteção Coletiva (SPC) utilizados nos canteiros de obras da região de São Carlos, focando de forma mais aprofundada no sistema guarda-corpo e rodapé e nas plataformas de proteção. Por meio de um trabalho em rede de pesquisa colaborativa, foi elaborada uma lista de verificação, baseada nas referências normativas estudadas, principalmente na NR 18 - Condições e meio ambiente de trabalho na indústria da construção, para avaliar o uso dos SPC nos canteiros de obras. No intuito de aprimorar a lista desenvolvida aplicou-se a mesma em estudo piloto, para que com base nos resultados obtidos, fossem feitas sugestões de melhoria. Em seguida, iniciaram-se os estudos de caso pertencentes à região de São Carlos, englobando nove obras. Os estudos de casos estenderam às cidades próximas da região, como Ribeirão Preto, Jaboticabal e Limeira. Após a aplicação da lista em oito obras, elaborou-se uma lista resumo e, a partir dela, analisaram-se os dados através de registros fotográficos e gráficos. O percentual médio de atendimento aos itens da lista de verificação foi de 79%, mostrando, assim, que muitos itens normativos foram atendidos, porém há ainda um percentual de melhoria nos canteiros da região estudada. Por fim, após o diagnóstico do uso dos SPC, elaboraram-se diretrizes para a escolha e uso dos SPC específicos, sistema guarda-corpo e rodapé (GcR) e plataforma de proteção. Além disso, notou-se que a falta de uso ou o uso incorreto dos SPC nos canteiros de obras, muitas vezes, não ocorre por problemas tecnológicos, mas sim por falhas nas diretrizes administrativas ou na fiscalização existente no setor.
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Björklund, Emma, and Carolina Silfverhjelm. "Safety at the construction site." Thesis, Linköpings universitet, Kommunikations- och transportsystem, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-119957.

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Olyckor på byggarbetsplatsen är ett uppmärksammat problem som sker dagligen. Vi har därför valt att undersöka hur väl säkerhetsrutinerna på företaget Åhlin & Ekeroth följs ute i praktiken. De skriftliga rutinerna jämförs med resultat från en enkätundersökning och intervjuer. Vi har valt att avgränsa oss till arbetsplatsolyckor då det är de vanligaste arbetsskadorna på en byggarbetsplats. Målet med den här studien är att belysa problem och brister inom arbetsmiljön på byggarbetsplatser. Av resultaten har vi kommit fram till förslag på åtgärder för att öka säkerheten och därmed minska antalet olycksfall. För att besvara våra frågeställningar har vi genomfört intervjuer, enkätundersökning samt studiebesök då vi fick en överblick över projekten och läste igenom skyddsrondsprotokoll. Vi besökte fyra olika projekt i Linköping. Intervjuer genomfördes med arbetsledningen på varje projekt och yrkesarbetarna fick svara på en enkätundersökning. Vi sammanställde resultaten och jämförde de med lagar och författningar samt säkerhetsrutinerna från Åhlin & Ekeroth. Resultatet visar att företagets rutiner är bra och att problemet istället är att de inte följs ute på byggarbetsplatsen. De största orsakerna till att de inte följs är ackord, lathet och attityden till säkerhet. De åtgärder vi har kommit fram till för att förbättra arbetsmiljön är bland annat att förbättra informationsflödet, ordna aktiviteter utanför arbetstid för ökad gemenskap och i ett större perspektiv omarbeta ackordssystemet.
Accidents at the construction site are a usual problem today. Therefore we have chosen to investigate how the safety routine is followed at the company Åhlin & Ekeroth. The routines are compared to the results from a questionnaire study and several interviews. We have chosen to delimitate the study to accidents in the workplace because it is the most common work-related injury. The goal with our study is to highlight problems in the working environment at the construction site. The result helped us to come up with suggestions for how to increase the safety and decrease the numbers of accidents. To answer our questions we did a questionnaire study, interviews and study visits. We visited four projects in Linköping. We did interviews with the staff management at each project and a questionnaire study with the professional workers. Then we put together the result and compared them to different injunctions, laws and the safety routine at Åhlin & Ekeroth. The results show that the company´s routines are good and the problem is that they are not followed at the construction site. The biggest reasons for this is piecework, laziness and the attitude to safety. The arrangements we have thought of to improve the working environment are to improve the information flow, arrange activities outside work for increased fellowship. We also believe that the system for piecework needs to be modified.
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Večeře, Tomáš. "Stavebně technologický projekt administrativního a skladovacího objektu." Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2015. http://www.nusl.cz/ntk/nusl-227292.

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This thesis focuses on constructional - technological project of realization Ace Trade corp. premises in Hylváty near Ústí nad Orlicí. Constructional – technological project consist mainly of time and financing plan, construction site design, machinery draft, detailed time plan and budget for the main building, technological manual for foundation, quality control plan for foundation and health and safety plan.
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Huková, Martina. "Stavebně technologická příprava prodejny Smart Light v Bratislavě." Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2019. http://www.nusl.cz/ntk/nusl-392005.

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The main subject of this diploma thesis is elaboration of construction and technological preparation for the main structure of the Smart Light shop in Bratislava. For main structure has been processed time schedule of the construction, single item budget, machine configuration design, drawing of building site, coordination situation of the building with connection to the infrastructure, safety and health protection during work on building site. Part of the thesis is processing study of main construction technological parts. Diploma thesis in technological prescript focuses on implementation of floor structure with cast epoxy walking surface. There has been elaborated testing and quality plan of this technological part. Additional chapter approximates built-in technology – cooling ceiling structure. For elaboration of this diploma thesis were used programs AutoCAD, CONTEC, BuildPowerS, Microsoft Excel, Microsoft Word.
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Schreiber, Jiří. "Bytový dům v Trutnově - stavebně technologický projekt." Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2018. http://www.nusl.cz/ntk/nusl-372163.

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In my master´s thesis I am talking about solution of building a top rough construction technology in a block of flats. The content of my thesis are mainly worked out technical regulations concerning monolithic ceiling constructions and vertical load bearing constructions. Regarding the phase of the top rough construction, also there are a proposition of a building site organization, a technical report about the building site organization, a technical report about a building-technological project, solution of construction orgaization, a timetable, an item budget and a proposition of machine compositions.
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Sedláček, Stanislav. "Komerční dům v Brně - stavebně technologická příprava výstavby." Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2016. http://www.nusl.cz/ntk/nusl-240216.

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The aim of my thesis was to perform construction and technological preparation of the construction of commercial house in Brno in the street Křídlovická. The introduction contains the expected design and construction process of the proposed building as a whole. It is also prepared a preliminary draft of the financial cost of the entire project designed according THU and object schedule. Furthermore, the implementation of the project construction site for a major part of the commercial house. Gradually work focuses mainly on the implementation of the technological stage of construction site with detailed processing procedure for the implementation of monolithic concrete structures of the building.
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Cheng, Tao. "Automated safety analysis of construction site activities using spatio-temporal data." Diss., Georgia Institute of Technology, 2013. http://hdl.handle.net/1853/47564.

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During the past 10 years, construction was the leading industry of occupational fatalities when compared to other goods producing industries in the US. This is partially attributed to ineffective safety management strategies, specifically lack of automated construction equipment and worker monitoring. Currently, worker safety performance is measured and recorded manually, assessed subjectively, and the resulting performance information is infrequently shared among selected or all project stakeholders. Accurate and emerging remote sensing technology provides critical spatio-temporal data that has the potential to automate and advance the safety monitoring of construction processes. This doctoral research focuses on pro-active safety utilizing radio-frequency location tracking (Ultra Wideband) and real-time three-dimensional (3D) immersive data visualization technologies. The objective of the research is to create a model that can automatically analyze the spatio-temporal data of the main construction resources (personnel, materials, and equipment), and automatically measure, assess, and visualize worker's safety performance. The research scope is limited to human-equipment interaction in a complex construction site layout where proximities among construction resources are omnipresent. In order to advance the understanding of human-equipment proximity issues, extensive data has been collected in various field trials and from projects with multiple scales. Computational algorithms developed in this research process the data to provide spatio-temporal information that is crucial for construction activity monitoring and analysis. Results indicate that worker's safety performance of selected activities can be automatically and objectively measured using the developed model. The major contribution of this research is the creation of a proximity hazards assessment model to automatically analyze spatio-temporal data of construction resources, and measure, evaluate, and visualize their safety performance. This research will significantly contribute to transform safety measures in construction industry, as it can determine and communicate automatically safe and unsafe conditions to various project participants located on the field or remotely.
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Books on the topic "Safety and health at construction site"

1

GMB. GMB health and safety handbook: Health and safety on construction sites. London: GMB, 1997.

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CIB Working Commission W99: Safety and Health on Construction Sites. International Conference. Implementation of safety and health on construction sites. Rotterdam: A.A. Balkema, 1996.

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Wolf, A. Health and safety on construction sites: A comparison of the UK and Germany. Ascot: Chartered Institute of Building, Directorate of Professional Services, 1996.

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Authority, Health and Safety. Guidelines to parts I, II and III of the Safety, health and welfare at work (construction) regulations 1995 (S.I. no. 138 of 1995). Dublin: Health and Safety Authority, 1996.

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CIB Working Commission W99. International Conference. Implementation of safety and health on construction sites: Proceedings of the Second International Conference of CIB Working Commission W99, Honolulu, Hawaii, 24-27 March 1999. Rotterdam: A.A. Balkema, 1999.

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Conference, CIB Working Commission W99 International. Implementation of safety and health on construction sites: Proceedings of the first international conference of CIB Working Commission W99, Lisbon, Portugal, 4-7 September 1996. Rotterdam: A.A. Balkema, 1996.

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Health and Safety Agency for Northern Ireland. Construction handbook: Site safety. 4th ed. Belfast: the Agency, 1989.

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Sherratt, Fred. Unpacking Construction Site Safety. Chichester, UK: John Wiley & Sons, Ltd, 2016. http://dx.doi.org/10.1002/9781118817261.

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Board, Construction Industry Training. Construction site safety course: Safety notes. 3rd ed. [s.l.]: Construction Industry Training Board, 1990.

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Board, Construction Industry Training. Construction site safety: Trainers digest. King's Lynn: Construction Industry Training Board, 1995.

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Book chapters on the topic "Safety and health at construction site"

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de Oliveira, Victor Hugo Mazon, and Sheyla Mara Baptista Serra. "Development of RFID automation system to improve safety on construction sites in Brazil." In Construction Health and Safety in Developing Countries, 301–16. First edition. | Abingdon, Oxon; New York, NY: Routledge, 2019.: Routledge, 2019. http://dx.doi.org/10.1201/9780429455377-21.

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Akinradewo, Olusola Festus, and Bamidele Temitope Arijeloye. "Contracting Firms Compliance to Health and Safety Measures on Construction Sites in Nigeria." In The Construction Industry in the Fourth Industrial Revolution, 419–27. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-26528-1_42.

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Kekkonen, Päivi, Arto Reiman, Seppo Väyrynen, and Hanna-Kaisa Rajala. "Construction Sites as Shared Workplaces – An Occupational Safety and Health Profile Based on Workplace Inspection Reports." In Engineering Assets and Public Infrastructures in the Age of Digitalization, 416–22. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-48021-9_46.

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Griffith, Alan, and Paul Watson. "Health and Safety." In Construction Management, 306–416. London: Macmillan Education UK, 2004. http://dx.doi.org/10.1007/978-0-230-50021-1_10.

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March, Chris. "Health and safety." In Construction Management, 281–309. Abingdon, Oxon : Routledge, 2017. |: Routledge, 2017. http://dx.doi.org/10.4324/9781315528175-21.

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Levy, Sidney M. "Safety on the Job Site." In The Construction Superintendent’s Handbook, 60–71. Boston, MA: Springer US, 1992. http://dx.doi.org/10.1007/978-1-4684-8494-6_6.

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Silva, Carrie de. "Health and safety." In Galbraith’s Construction and Land Management Law for Students, 219–38. Seventh edition. | Abingdon, Oxon; New York: Routledge, 2020.: Routledge, 2020. http://dx.doi.org/10.1201/9781003029250-11.

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Lingard, Helen, and Michelle Turner. "Construction Workers' Health." In Integrating Work Health and Safety into Construction Project Management, 73–103. Chichester, UK: John Wiley & Sons, Ltd, 2019. http://dx.doi.org/10.1002/9781119159933.ch4.

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Ashworth, Allan, and Srinath Perera. "Health, safety and welfare." In Contractual Procedures in the Construction Industry, 270–84. Seventh edition. | Milton Park, Abingdon, Oxon; New York, NY: Routledge, 2018.: Routledge, 2018. http://dx.doi.org/10.1201/9781315529059-20.

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Fewings, Peter, and Christian Henjewele. "Project safety, health and the environment." In Construction Project Management, 308–47. Third edition. | Abingdon, Oxon ; New York, NY : Routledge is an imprint of the Taylor & Francis Group, an Informa Business, 2019.: Routledge, 2019. http://dx.doi.org/10.1201/9781351122030-12.

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Conference papers on the topic "Safety and health at construction site"

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Akintola, A., J. Barlow, E. Cooke, W. Fynn, H. Hansen, M. Heim, R. Jackson, et al. "Construction Site Safety Standardisation." In SPE International Conference and Exhibition on Health, Safety, Security, Environment, and Social Responsibility. Society of Petroleum Engineers, 2016. http://dx.doi.org/10.2118/179304-ms.

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Gottfried, Arie, Giuseppe M. Di Giuda, Valentina Villa, and Paolo Piantanida. "The Evolution of Legislation on Health and Safety on Construction Site in Italy." In Research, Development and Practice in Structural Engineering and Construction. Singapore: Research Publishing Services, 2012. http://dx.doi.org/10.3850/978-981-08-7920-4_cs-3-0146.

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Popat, N., B. Perkins, N. Vassiliev, O. Reyes Valdes, C. Hawkes, and M. Carvalho. "Development, Adoption and Implementation of Fabrication Site Construction Safety Recommended Practices." In SPE International Conference and Exhibition on Health, Safety, Security, Environment, and Social Responsibility. Society of Petroleum Engineers, 2018. http://dx.doi.org/10.2118/190581-ms.

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Alara, Samuel Abiodun, and Ibrahim Ibrahim Inuwa. "Strategies for Communicating Health and Safety Information on Construction Sites in Nigeria." In The International Conference on Civil Infrastructure and Construction. Qatar University Press, 2020. http://dx.doi.org/10.29117/cic.2020.0030.

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Lagana, Renato G. "The Knowledge of Previous Work in Identifying Potential Health and Safety Risks in the Restoration Sites." In Research, Development and Practice in Structural Engineering and Construction. Singapore: Research Publishing Services, 2012. http://dx.doi.org/10.3850/978-981-08-7920-4_c-12-0176.

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Andersson, Johan. "Safety Assessment Input for Site Selection: The Swedish Example." In ASME 2011 14th International Conference on Environmental Remediation and Radioactive Waste Management. ASMEDC, 2011. http://dx.doi.org/10.1115/icem2011-59031.

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Svensk Ka¨rnbra¨nslehantering AB (SKB) has performed comprehensive investigations of two candidate sites for a final repository for Sweden’s spent nuclear fuel. In March 2011 SKB decided to submit licence applications for a final repository at Forsmark. Before selection, SKB stated that the site that offers the best prospects for achieving long-term safety in practice would be selected. Based on experiences previous safety assessments, a number of issues related to long-term safety need to be considered in the context of site comparison. The factors include sensitivity to climate change such as periods of permafrost and glaciations, rock mechanics evolution including the potential for thermally induced spalling and sensitivity to potential future earthquakes, current and future groundwater flow, evolution of groundwater composition and proximity to mineral resources. Each of these factors related to long-term safety for the two candidate sites is assessed in a comparative analysis of site characteristics. The assessment also considers differences in biosphere conditions and in the confidence of the site descriptions. The comparison is concluded by an assessment on how the identified differences would affect the estimated radiological risk from a repository located at either of the sites. The assessment concludes that there are a number of safety related site characteristics for which the analyses do not show any decisive differences in terms of implications on safety, between the sites Forsmark and Laxemar. However, the frequency of water conducting fractures at repository depth is much smaller at Forsmark than at Laxemar. This difference, in turn, affects the future stability of the current favourable groundwater composition, which combined with the much higher flows at Laxemar would, for the current repository design, lead to a breach in the safety functions for the buffer and the canister for many more deposition positions at Laxemar than at Forsmark. Thereby the calculated risk for Forsmark will be considerably lower than that for Laxemar. What decided the choice is that Forsmark is thus mainly that it was judged to offer better prospects for achieving long-term safety in the final repository. Other factors considered included implications regarding repository construction and operation, difference in the footprint of the repository, comparisons regarding environment and health as well as social resources and local support.
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Agoncillo, Louie A. "Managing Pipeline Health, Safety and Environmental Risks." In 2002 4th International Pipeline Conference. ASMEDC, 2002. http://dx.doi.org/10.1115/ipc2002-27339.

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The terms “risk assessment” and “risk management” are both commonly used to describe some method of identifying, understanding and controlling risks. In the pipeline industry, risks are encountered and must be addressed at the concept and design phase, construction and commissioning phases and the operations and maintenance phases. Risk assessment is a detailed, systematic examination of any pipeline activity, location or operation system to identify risks, understand the probability and potential consequences of the risks, and to review the current or planned approaches to controlling risks. Risk management is the set of ongoing management and engineering activities to ensure that risks are assessed and controlled to a reasonably achievable, tolerable level. A continuous improvement approach is also required. A wide variety of risk management or loss control activities are in use in the pipeline industry internationally. The purpose of this presentation is to discuss some of these techniques and the benefits to be derived from the application of risk management techniques throughout all phases of pipeline activity. Effective risk management allows organizations to preempt losses and get on top of managed system problems before incidents and accidents occur. After all, the vast majority of the Health, Safety and Environment (HSE) problems at work sites are system problems, not operator problems. This paper will present an overview of several risk assessment and risk management techniques to acquaint conference participants with the information needed to select the most appropriate techniques to utilize during the various phases of pipeline development and operation.
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Lewis, Donald W. "U.S. Commercial Spent Fuel Storage Facilities: Public Health and Environmental Considerations." In ASME 2003 9th International Conference on Radioactive Waste Management and Environmental Remediation. ASMEDC, 2003. http://dx.doi.org/10.1115/icem2003-5004.

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U. S. commercial reactor plants are installing spent fuel storage facilities formally called Independent Spent Fuel Storage Installations (ISFSI) to provide needed storage space for spent nuclear fuel assemblies. Although this might be a primary objective for the utility that owns the plant, the U.S. Nuclear Regulatory Commission (U.S. NRC) has other priorities as addressed by ISFSI regulations in Title 10 of the Code of Federal Regulations, Part 72. These regulations establish a number of criteria that ensure that above all, the storage of spent nuclear fuel does not adversely affect the health and safety of the public or the environment. There are 3 primary ISFSI design activities that ensure the health and safety of the public and protection of the environment: site selection, storage system selection, and storage facility design. The regulatory requirements that address ISFSI site selection are found in 10 CFR 72, Subpart E, “Siting Evaluation Factors.” This section requires that potential ISFSI sites be assessed for impacts such as site characteristics that may affect safety or the environment, external natural and man-induced events, radiological and other environmental conditions, floodplains and natural phenomena, man-made facilities and activities that could endanger the ISFSI, and construction, operation, and decommission activities. All of these potential impacts must be carefully evaluated. First, the ISFSI capacity requirements should be determined. Potential sites should then be evaluated for siting impacts to ensure the site has adequate space, it can be licensed, it will minimize radiological doses to the general public and on-site workers, and construction, operation, and decommissioning won’t have a major effect on the environment or nearby population. The regulatory requirements that address storage system selection are found in 10 CFR 72, Subpart F, “General Design Criteria.” This section requires that the storage system be designed to withstand environmental conditions, natural phenomena, fires and explosions and that it includes confinement barriers, retrievability measures, and criticality safety. In order to be licensed by the U. S. NRC, all spent fuel storage systems must be evaluated to show how they meet these requirements. U.S. NRC approval of the system ensures that the requirements have been met and therefore ensure the health and safety of the public and environment are protected. The regulatory requirements that address the ISFSI design are also found in 10 CFR 72, Subpart F as well as 10 CFR 72, Subpart H, “Physical Protection.” Like the storage systems, the ISFSI site must be designed to withstand environmental conditions, natural phenomena, fires, and explosions. But the design must also include security provisions. Security features protect the spent fuel from attack or sabotage and therefore protect the health and safety of the public and the environment. The primary potential impact of spent fuel storage is radiation dose. The key regulatory requirement that addresses radiation dose is found in 10 CFR 72.104. This section requires that the dose to any individual member of the public not exceed 0.25 mSv (25 mrem) to the whole body, 0.75 mSv (75 mrem) to the thyroid, and 0.25 mSv (25 mrem) to any other organ, from exposure to direct radiation from the ISFSI, radioactive liquid or gaseous effluents, and radiation from other nearby nuclear facilities. Design features of the storage system and ISFSI include shielding by the cask enclosure, distance, berms as required, etc. to attenuate direct radiation, and confinement provisions to prevent radiological effluent leakage. The ISFSI must be located such that the cumulative doses from the ISFSI and reactor plant do not exceed regulatory requirements. Thus it can be seen that ISFSI site selection, storage system selection, and storage facility design all work together to ensure the health and safety of the public and environment are protected. Comments regarding the contents of this paper may be submitted to the author, Donald W. Lewis, Shaw Environmental & Infrastructure, 9201 E. Dry Creek Road, Centennial, Colorado, 80112, U.S.A.
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He, Xiaogang, Xiaopeng Fang, Zhong Wei, Yanli Yang, and Zhiyou Sun. "Study on HSE Management System of AP1000 Nuclear Plant Project." In 18th International Conference on Nuclear Engineering. ASMEDC, 2010. http://dx.doi.org/10.1115/icone18-29798.

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Being a third generation advanced nuclear plant type, AP1000 has the characteristics of modular construction, “Open-Top” method lifting, etc, which simultaneously present a new challenge for site HSE management. Through studying Health, Safety & Environment (HSE) site management of the first AP1000 nuclear plant (ANP) under construction, this research analyzes the difference of HSE management aspects, such as management commitment and responsibility, HSE awareness and concept, training and education, HSE reward & punishment system and other aspects between China and the west. It also puts forward the specific idea for developing site HSE management system suitable for ANP technology characteristic and China’s actual conditions, which will provide a guarantee for the safe and smooth construction of ANP project.
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Barboza, Tania S., Carlos Alberto Borges, and Aluisio S. Xavier Neto. "Participative Risk Management in the Construction of Onshore Pipelines." In 2000 3rd International Pipeline Conference. American Society of Mechanical Engineers, 2000. http://dx.doi.org/10.1115/ipc2000-139.

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Accidents related to production, processing, storage and transportation of oil and its by-products have been studied extensively because of their social and environmental impacts. However, accidents relating to construction of oil facilities have been largely ignored by researches, perhaps because such accidents involve a smaller group of people and result in smaller-scale environmental impacts. Pipeline construction projects are particularly unique. As opposed to construction of processing plants, pipeline construction covers a very long reach, often involving varying site conditions. Consequently, there are more environmental issues, many of which vary from place to place along the pipeline route as a result of the differing soil, drainage, vegetation and exposure conditions. The variable conditions, exposure and consequences of accidents along a pipeline route result in many challenges related to risk management. Specifically, risk management is difficult as a result of transportation along the pipeline corridor, multiple access routes to the pipeline corridor, unique culture and social issues in various parts of the country, and remote working conditions. Major issues are moving work sites; crossing of different areas of the country with several typical cultural and regional aspects; multiple work sites and the isolation of workers in small groups. These factors make risk management particularly important, but easy to ignore. In this paper we discuss the major potential risks in every phase of the pipeline construction. The paper describes the company’s process for managing risk during pipeline construction. It identified the limitations of traditional safety management systems in coping with the critical problems related to environmental and safety issues. Many company are using integrated management systems as the major tools to control risk. Such systems cover health, safety and environmental issues (HSE). PETROBARS, as the largest Brazilian oil company and one of the leading oil companies in the world, has adopted the HSE system. The system focuses on employee participation in implementation of the HSE system.
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Reports on the topic "Safety and health at construction site"

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Benjamin, D. W. NIF conventional facilities construction health and safety plan. Office of Scientific and Technical Information (OSTI), May 1998. http://dx.doi.org/10.2172/15003140.

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Sawicki, R. H. NIF special equipment construction health and safety plan. Office of Scientific and Technical Information (OSTI), July 1997. http://dx.doi.org/10.2172/605159.

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J. E. Fasso. Site specific health and safety plan, 233-S decontamination and decommissioning. Office of Scientific and Technical Information (OSTI), December 1997. http://dx.doi.org/10.2172/16070.

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Ruggieri, Michael, Robert Fox, Iraj Javandel, Ginny Lackner, Patrick Thorson, Linnea Wahl, David Baskin, Nancy Rothermich, and Steve Wyrick. Site environmental report for 2000. Volume I, Environment, Health and Safety Division. Office of Scientific and Technical Information (OSTI), September 2001. http://dx.doi.org/10.2172/1195577.

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Ruggieri, Michael, Robert Fox, Iraj Javandel, Ginny Lackner, Patrick Thorson, Linnea Wahl, David Baskin, Nancy Rothermich, and Steve Wyrick. Site environmental report for 2000. Volume II, Environment, Health and Safety Division. Office of Scientific and Technical Information (OSTI), September 2001. http://dx.doi.org/10.2172/1195578.

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Author, Not Given. Site Environmental Report for 2004. Volume 2, Environment, Health, and Safety Division. Office of Scientific and Technical Information (OSTI), September 2005. http://dx.doi.org/10.2172/1182669.

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Author, Not Given. Site Environmental Report for 2006. Volume I, Environment, Health, and Safety Division. Office of Scientific and Technical Information (OSTI), September 2007. http://dx.doi.org/10.2172/1182670.

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Author, Not Given. Site Environmental Report for 2006. Volume 2, Environment, Health, and Safety Division. Office of Scientific and Technical Information (OSTI), September 2007. http://dx.doi.org/10.2172/1182671.

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Author, Not Given. Site Environmental Report for 2004. Volume 1, Environment, Health, and Safety Division. Office of Scientific and Technical Information (OSTI), September 2005. http://dx.doi.org/10.2172/1182668.

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Huddleston, P. C. National Ignition Facility start-up/operations engineering and special equipment construction health and safety plan. Office of Scientific and Technical Information (OSTI), May 1998. http://dx.doi.org/10.2172/14772.

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