Risk assessment in transportation systems

Abstract The paper presents problems of hazard identification in transportation systems, where not only field of action is large but also cause-consequences relations between failure causes and losses are distant in time and space. It is observed in transportation systems of goods and passengers, systems of water, gas, oil distribution and electro-energetic nets. Proposed systemic approach based on system elements classification on active (casual) and passive ones (affected). There are described concepts of vulnerability (damageability), resilience (ability of recovering and risk controlling by introducing safety measures to undesired event chain.

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Impact evaluation of human-made hazards on terrestrial transport infrastructure assets: modelling variables and failure modes

10.2749/ghent.2021.1847 ◽

2021 ◽

Author(s):

Neryvaldo Galvão ◽

Hélder S. Sousa ◽

José C. Matos

Keyword(s):

Risk Assessment ◽

Extreme Events ◽

Impact Evaluation ◽

Failure Modes ◽

Transportation Systems ◽

Hazard Identification ◽

Transport Infrastructure ◽

Real Case ◽

Assessment Framework ◽

Probability Of Occurrence

<p>This work provides an overview of human-made hazards impact on the malfunctioning of terrestrial transportation systems. The impacts evaluation is gathered in four major groups, specifically: human, economic, environmental and political/social impacts. For further characterization or forecast of human-made hazards impact in real case scenarios, a traditional risk assessment framework is proposed by assuming four main steps: i) hazard identification; ii) probability of occurrence; iii) asset vulnerability; iv) impacts. The present work was carried within the SAFEWAY project, which aims at improving the resilience of transport infrastructures, developing a holistic toolset with transversal application to anticipate and mitigate the effects of extreme events at all modes of disaster cycle.</p>

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A case study on hazard identification and risk assessment in sewage treatment plant

Materials Today Proceedings ◽

10.1016/j.matpr.2021.03.540 ◽

2021 ◽

Author(s):

M. Ramaganesh ◽

T. Raj Pradeesh ◽

S. Naresh ◽

P. Venkumar ◽

R. Manikandan

Keyword(s):

Risk Assessment ◽

Sewage Treatment ◽

Sewage Treatment Plant ◽

Treatment Plant ◽

Hazard Identification

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Catalogue of hazards: a fundamental part for the safe design of surgical robots

Current Directions in Biomedical Engineering ◽

10.1515/cdbme-2020-0009 ◽

2020 ◽

Vol 6 (1) ◽

Author(s):

Lukas Theisgen ◽

Florian Strauch ◽

Matías de la Fuente ◽

Klaus Radermacher

Keyword(s):

Development Process ◽

New Technologies ◽

State Of The Art ◽

Hazard Identification ◽

Surgical Robots ◽

Safety Measures ◽

Fundamental Part ◽

Phases Of Development ◽

Early Phases ◽

Intended Use

AbstractRisk classes defined by MDR and FDA for state-of-the-art surgical robots based on their intended use are not suitable as indicators for their hazard potential. While there is a lack of safety regulation for an increasing degree of automation as well as the degree of invasiveness into the patient’s body, adverse events have increased in the last decade. Thus, an outright identification of hazards as part of the risk analysis over the complete development process and life cycle of a surgical robot is crucial, especially when introducing new technologies. For this reason, we present a comprehensive approach for hazard identification in early phases of development. With this multi-perspective approach, the number of hazards identified can be increased. Furthermore, a generic catalogue of hazards for surgical robots has been established by categorising the results. The catalogue serves as a data pool for risk analyses and holds the potential to reduce hazards through safety measures already in the design process before becoming risks for the patient.

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Hazard identification, risk assessment and control for dam construction safety using an integrated BWM and MARCOS approach under interval type-2 fuzzy sets environment

Automation in Construction ◽

10.1016/j.autcon.2021.103699 ◽

2021 ◽

Vol 127 ◽

pp. 103699

Author(s):

Erkan Celik ◽

Muhammet Gul

Keyword(s):

Risk Assessment ◽

Fuzzy Sets ◽

Construction Safety ◽

Hazard Identification ◽

Dam Construction ◽

Interval Type ◽

And Control

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Generalized Read-Across prediction using genra-py

Bioinformatics ◽

10.1093/bioinformatics/btab210 ◽

2021 ◽

Author(s):

Imran Shah ◽

Tia Tate ◽

Grace Patlewicz

Keyword(s):

Risk Assessment ◽

Human Health Risk ◽

Chemical Properties ◽

Predictive Performance ◽

Hazard Identification ◽

Data Driven ◽

Chemical Safety ◽

Physico Chemical ◽

Data Driven Approach ◽

Assessment Problems

Abstract Motivation Generalized Read-Across (GenRA) is a data-driven approach to estimate physico-chemical, biological or eco-toxicological properties of chemicals by inference from analogues. GenRA attempts to mimic a human expert’s manual read-across reasoning for filling data gaps about new chemicals from known chemicals with an interpretable and automated approach based on nearest-neighbors. A key objective of GenRA is to systematically explore different choices of input data selection and neighborhood definition to objectively evaluate predictive performance of automated read-across estimates of chemical properties. Results We have implemented genra-py as a python package that can be freely used for chemical safety analysis and risk assessment applications. Automated read-across prediction in genra-py conforms to the scikit-learn machine learning library's estimator design pattern, making it easy to use and integrate in computational pipelines. We demonstrate the data-driven application of genra-py to address two key human health risk assessment problems namely: hazard identification and point of departure estimation. Availability and implementation The package is available from github.com/i-shah/genra-py.

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Hazard Identification and Risk Assessment of 2 × 300 MW Thermal Power Plant with Their Control Measures to Optimize the Risk

Journal of Failure Analysis and Prevention ◽

10.1007/s11668-020-01011-8 ◽

2020 ◽

Author(s):

Yusuf Faizan ◽

Sandesh Mishra ◽

Amritansu Khali ◽

Rishi Diwan

Keyword(s):

Risk Assessment ◽

Power Plant ◽

Thermal Power Plant ◽

Thermal Power ◽

Hazard Identification ◽

Control Measures

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Applying the Quantitative Risk Assessment (QRA) to Improve Safety Management of Oil and Gas Pipeline Stations in China

Volume 4: Pipelining in Northern and Offshore Environments; Strain-Based Design; Risk and Reliability; Standards and Regulations ◽

10.1115/ipc2012-90130 ◽

2012 ◽

Author(s):

Wenxing Feng ◽

Xiaoqiang Xiang ◽

Guangming Jia ◽

Lianshuang Dai ◽

Yulei Gu ◽

...

Keyword(s):

Risk Assessment ◽

Environmental Protection ◽

Oil And Gas ◽

Hazard Identification ◽

Gas Pipeline ◽

Industrial Safety ◽

Quantitative Risk Assessment ◽

Chinese Government ◽

Land Resource ◽

Oil Pipeline

The oil and gas pipeline companies in China are facing unprecedented opportunities and challenges because of China’s increasing demand for oil and gas energy that is attributed to rapid economic and social development. Limitation of land resource and the fast urbanization lead to a determinate result that many pipelines have to go through or be adjacent to highly populated areas such as cities or towns. The increasing Chinese government regulation, and public concerns about industrial safety and environmental protection push the pipeline companies to enhance the safety, health and environmental protection management. In recent years, PetroChina Pipeline Company (PPC) pays a lot of attention and effort to improve employees and public safety around the pipeline facilities. A comprehensive, integrated HSE management system is continuously improved and effectively implemented in PPC. PPC conducts hazard identification, risk assessment, risk control and mitigation, risk monitoring. For the oil and gas stations in highly populated area or with numerous employees, PPC carries out quantitative risk assessment (QRA) to evaluate and manage the population risk. To make the assessment, “Guidelines for quantitative risk assessments” (purple book) published by Committee for the Prevention of Disasters of Netherlands is used along with a software package. The basic principles, process, and methods of QRA technology are introduced in this article. The process is to identify the station hazards, determinate the failure scenarios of the facilities, estimate the possibilities of leakage failures, calculate the consequences of failures and damages to population, demonstrate the individual risk and social risk, and evaluate whether the risk is acceptable. The process may involve the mathematical modeling of fluid and gas spill, dispersion, fire and explosion. One QRA case in an oil pipeline station is described in this article to illustrate the application process and discuss several key issues in the assessment. Using QRA technique, about 20 stations have been evaluated in PPC. On the basis of the results, managers have taken prevention and mitigation plans to control the risk. QRAs in the pipeline station can provide a quantitative basis and valuable reference for the company’s decision-making and land use planning. Also, QRA can play a role to make a better relationship between the pipeline companies and the local regulator and public. Finally, this article delivers limitations of QRA in Chinese pipeline stations and discusses issues of the solutions.

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ANALISIS KESELAMATAN KESEHATAN KERJA (K3) TERHADAP RISIKO BAHAYA LINGKUNGAN FISIK DENGAN METODE “HIRARC” DI RUMAH POTONG HEWAN KOTA PEKANBARU TAHUN 2020

Media Kesmas (Public Health Media) ◽

10.25311/kesmas.vol1.iss2.50 ◽

2021 ◽

Vol 1 (2) ◽

pp. 215-224

Author(s):

Diana Putri ◽

Asril Asril ◽

Beny Yulianto

Keyword(s):

Risk Assessment ◽

Risk Control ◽

Health And Safety ◽

Hazard Identification ◽

Work Activities ◽

Administrative Control ◽

Engineering Control ◽

Safety And Health ◽

Key Informant ◽

Work Shifts

ABSTRAK Rumah Potong Hewan merupakan suatu bangunan yang memiliki desain dan konstruksi khusus digunakan sebagai tempat pemotongan hewan. Aktivitas kerja di RPH memiliki potensi bahaya yang dapat mengancam keselamatan dan kesehatan kerja. Berdasarkan observasi awal, RPH Kota Pekanbaru ini tidak memiliki laporan bulanan maupun tahunan mengenai data kecelakaan, dan juga belum pernah melakukan identifikasi, dan penilaian terhadap bahaya yang ada. Adapun tujuan penelitian ini yaitu untuk menganalisis keselamatan kesehatan kerja (K3) terhadap risiko bahaya lingkungan fisik di tempat kerja dengan metode “HIRARC” (Hazard Identification, Risk Assessment, and Risk Control). Jenis penelitian ini adalah kualitatif analitik. Lokasi penenlitian dilakukan di rumah potong hewan Kota Pekanbaru, penelitian dilakukan pada bulan Juli-Agustus 2020. Informan dalam penelitian ini sebanyak 6 orang, sebagai informan utama yaitu Kepala UPTD, 2 orang informan pendukung yaitu koordinator lapangan dan dokter hewan, dan informan kunci yaitu pekerja, metode yang digunakan peneliti yaitu wawancara mendalam dan observasi langsung. Berdasarkan hasil penelitian yang dilakukan potensi bahaya tingkatan risiko “Ekstrim” seperti diseruduk sapi pada proses penggiringan sapi menuju killing box, tertimpa katrol dan sapi pada proses penggantungan dan pemindahan sapi menggunakan katrol. Rumah Potong Hewan belum pernah melakukan identifikasi bahaya, penilaian risiko akan tetapi untuk pengendalian risiko sudah dilakukan beberapa upaya di rumah potong hewan, seperti SOP, Shift kerja, dan juga APD. Rekomendasi yang diberikan yaitu diharapkan sebaiknya RPH memiliki fasilitas yang berhubungan dengan kesehatan pekerja. Perlu adanya upaya pengendalian risiko secara engineering control, contohnya, membuat kerangkeng sapi. administrative control, seperti, memberikan sosialisasi, maintenance, housekeeping dan inspeksi, terhadap alat, mesin dan pekerja. ABSTRACTSlaughterhouse is a building having the design and construction specifically used as animal slaughterhouse. Slaughterhouse’s work activities have potential of hazards which can cause harm to workers’ safety and health. Based on pre observation, the slaughterhouse in Pekanbaru does not have any monthly and annual report about the data of accident. This livestock production also has no doing identification and assessment of hazard. The purposes of this study are to analyze occupational health and safety toward risk of danger physical environment at work, this study uses Hazard Identification, Risk Assessment, and Risk Control “HIRARC” method which using likelihood and severity level of each hazard as references to define a risk value. There are 6 informants the maininfromants is a UPTD head, 2 supporting informants are the field coordinator and venetarian, and the key informant is a worker, The methode that use in this study is interview And observation. The study shows that the most extreme are getting hit by a cow in cattle herding to killing box, falling of a cow hoist material from conveyor railing in shackling and hoisting process. Slaughterhouse has never done hazard identification and risk assessment. However, for risk control have done several attempts in slaughterhouse, such as Standard Operating Procedures, work shifts, and Personal Protective Equipment. Recommendation is given that the slaughterhouse should has facilities related to health of workers. It needs an effort to risk control through engineering control such as making cow cages, administrative control, such as giving socialization, maintenance, housekeeping and inspection of tools, machines and workersKeywords : Slaughterhouse, Hazard, Risk, Physical Environtmen, HIRARC.

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