Article Title,Year,Volume,Issue,Page Range,Author
Inherently Safer Technology: An Evolutionary Approach,2006,25,2,116-119,Overton
Nurturing a Strong Process Safety Culture,2006,25,1,16-20,Kadri
Organizational Factors That Influence Safety,2006,25,2,94-97,Killimett
Preventing Incidents at Newly Acquired Facilities: Implementation of Lessons Learned,2006,25,1,64-70,Peters
A Real-Life Example of Choosing an Inherently Safer Process Option,2006,25,4,274-279,Study
An Overview of Inherently Safer Design,2006,25,2,98-107,Hendershot
Explosible Dusts US Codes and Standards of Safe Management Practices,2006,25,4,298-302,Kaelin
History of the Loss Prevention Symposia: Forty Years 1967-2006,2006,25,4,268-273,Davenport
Incident Investigation: Process to Identify Root Causes of Mechanical Failures,2006,25,1,8-15,Dowell
Ammonia solutions explosivity,2009,28,1,36-44,Dupont
Imperial sugar refinery combustible dust explosion investigation,2011,30,1,66-81,Vorderbrueggen
Emergency management: it starts with a question in the design stages "What can go wrong?",2017,36,4,325,Murphy
Reducing process safety events: an approach proven by sustainable results,2017,36,4,326-337,Champion
Consequence modeling at the Eastman Kingsport site,2017,36,4,338-352,James
Atmospheric tank failures: mechanisms and an unexpected case study,2017,36,4,353-361,Schmidt
A new insight into the accident investigation: a case study of Tianjin Port fire and explosion in China,2017,36,4,362-367,Aitao
Explosion behavior of ammonia and ammonia/methane in oxygen-enriched air,2017,36,4,368-371,Salzano
Effects of the explosion intensity on the distribution of flame region in a tunnel,2017,36,4,372-377,Zhang
Chinese process safety management core elements and control measures,2017,36,4,378-381,Zhou
A technique to control major hazards of the coal gasification process developed from critical events and safety barriers,2017,36,4,382-391,Xu
Three tools to visualize and prevent boilers and furnaces firebox explosions,2017,36,3,221-236,Blanco
Transportation risk management: one company's approach,2017,36,3,252-256,Lutostansky
Layer of protection analysis as a multifunctional team problem solving tool,2017,36,3,257-263,Cialkowski
Why DDT is the only way to explain some vapor cloud explosions,2017,36,3,292-300,Johnson
NFPA combustible dust standards--2016 update,2017,36,2,133-138,Bershad
Application of a liquid nitrogen direct jet system to the extinguishment of oil pool fires in open space,2017,36,2,165-177,Zhou
A network based approach to envisage potential accidents in offshore process facilities,2017,36,2,178-191,Khan
Bayesian network and bow tie to analyze the risk of fire and explosion of pipelines,2017,36,2,202-212,Bilal
Smartphone use in process safety,2017,36,1,4-9,Pano
The effect of an obstacle on methane-air explosions in a spherical vessel connected to a pipeline,2017,36,1,67-73,Jiang
Interrelations between process safety management elements,2017,36,1,74-80,Shariff
Risk assessment on chemical plants by the method of safety checklist analysis,2017,36,1,95-101,Xiaoliang
Learning from incidents at a Norwegian and a Polish refinery,2017,36,1,102-108,Njå
Minimum explosible concentrations of mist and dust clouds,2018,37,1,4-17,Britton
Attenuation of thermal radiation through water mist,2018,37,1,18-24,Balner
A new paradigm for accident investigation and analysis in the era of big data,2018,37,1,42-48,Wang
Guidelines for designing risk matrices,2018,37,1,49-55,Baybutt
Emotional safety culture: a new and key element of safety culture,2018,37,2,134-139,Wang
Human error: a myth eclipsing real causes,2018,37,2,145-149,Alonso
Reducing the attractiveness of chemical plants to terrorist attacks: dehorning rhinos,2018,37,2,150-152,Khakzad
Bow tie to improve risk management of natural gas pipelines,2018,37,2,169-175,Muniz
Integrated assessment of safety distances for rescue work in chemical plant fires involving domino effects,2018,37,2,186-193,Shu
The validity of engineering judgment and expert opinion in hazard and risk analysis: the influence of cognitive biases,2018,37,2,205-210,Baybutt
Barriers to adopting Inherently Safer Design philosophy in Iran,2018,37,2,221-229,Pouyakian
Evolution of the classification of flammable and combustible liquids in Russia,2018,37,2,230-236,Alexeev
A new methodology to evaluate system-level performance of explosion suppression systems,2018,37,2,237-247,Chao
Effectiveness of water sprays in mitigating toxic releases,2018,37,2,256-262,Mukherjee
Major process accidents: their characteristics assessment and management of the associated risks,2018,37,2,268-275,Yang
Hydrogen jet vapor cloud explosion: a model for predicting blast size and application to risk assessment,2018,37,3,397-410,Miller
Waste solvents to trash haulers: lessons learned from hazardous waste accidents,2018,37,3,427-441,Morrison
"It is better to be safe 100 times than dead once."--Mark Twain,2018,37,4,452-458,Edwards
Safeguards: a key process safety tool in jet fuel management from refinery to aircraft wings,2018,37,4,518-524,Adekitan
Consequence assessment of anhydrous ammonia release using CFD-probit analysis,2018,37,4,525-534,Namboothiri
A new correlation for hazardous area classification based on experiments and CFD predictions,2019,38,1,21-26,Souza
Integrated risk management of hazardous processing facilities,2019,38,1,42-51,Yang
A quantitative individual risk assessment method in process facilities with toxic gas release hazards: a combined scenario set and CFD approach,2019,38,1,52-60,Liu
A bow-tie model for analyzing explosion and fire accidents induced by unloading operation in petrochemical enterprises,2019,38,1,78-86,Wang
Modeling reactive mixtures: case study for spills of formaldehyde solutions,2019,38,1,61-70,Dharmavaram
The roundabout way to disaster: recognizing and responding to normalization of deviance,2019,38,2,e12014,Mize
Human factors in real life applications--a SCUBA example,2019,38,2,e12017,Kerin
How to conduct a dust hazards analysis,2019,38,2,e12004,Murphy
Procedural management of safety regulations and rules for the chemical industry,2019,38,2,e11999,Wang
An integrated method for quantifying and managing extreme weather risks and liabilities for industrial infrastructure and operations,2019,38,3,e12087,Kytomaa
Bonded grounded and burned to a crisp: electrostatic ignition of flammable gases,2019,38,3,e12024,Cox
When the fail open valve fails closed: lessons from investigating the "impossible",2019,38,3,e12031,Cox
Dust explosion propagation in small diameter pipes,2019,38,3,e12033,Lemkowitz
The gifts of process safety management: effective process safety helps make chemical plant workers safer than almost any other occupation,2019,38,4,e12105,Sanders
Law of distribution and variation of electrostatic potential in oil tanks during filling process,2019,38,4,e12035,Chen
Importance of properly designing dust explosion protection systems: case study - 2014 plywood manufacturing facility fire and explosion,2019,38,4,e12036,Davis
Case study on a fire within a road-based portable bitumen storage tanker,2019,38,4,e12038,Mannan
Human factors of fire and explosion accidents in petrochemical enterprises,2019,38,4,e12043,Wang
Overcoming mine safety crisis in Pakistan: an appraisal,2019,38,4,e12041,Ullah
Safety is about doing the right thing,2019,38,4,e12044,Chen
Investigation of the explosion-related parameters and their influence on the severity of an explosion involving aluminum dust,2019,38,4,e12047,Balantič
Should PHA practitioners take credit to mitigative safeguards to reduce the impact of an accident when performing qualitative risk analysis?,2019,38,4,e12049,Silva
Quantitative risk assessment of a natural gas pipeline in an underground utility tunnel,2019,38,4,e12051,Reniers
Accident investigation challenges for process safety practitioners,2019,38,4,e12053,Benner
Deflagration in empty tank being rinsed with water,2019,38,4,e12054,Britton
A summary of the investigation report on the Tianjiayi explosion incident (21 March 2019),2020,39,1,e12132,Yu
Comparative analysis of two catastrophic hazardous chemical accidents in China,2020,39,1,e12137,Fu
Major explosion at Yibin Hengda Technology Company: the causes and lessons learned,2020,39,1,e12099,Liu
An enquiry into the causes of an explosion accident occurred in a biogas plant,2020,39,1,e12063,Boscolo
Lessons learned from analyzing an explosion at Shanghai SECCO petrochemical plant,2020,39,1,e12094,Liu
A brief report and analysis on the July 19 2019 explosion in the Yima gasification plant in Sanmenxia China,2020,39,1,e12095,Wang
Analysis on the work safety level in different provinces and regions of China,2020,39,1,e12120,Wu
Taming the wild river rapids: how process safety can apply outside the process industries,2020,39,1,e12088,Kerin
Research on evaluation of safety literacy based on social network analysis,2020,39,1,e12059,Liu
Leveraging technology to minimize operational error and hazards--rise of the Operator 2.0,2020,39,1,e12078,Thompson
Confirming the safety instrumented system layer of protection,2020,39,1,e12079,Chastain‐Knight
Safety climate factors at selected chemical manufacturing plant in Malaysia,2020,39,1,e12096,Hamid
Using unmanned aerial vehicles and robotics in hazardous locations safely,2020,39,1,e12066,Kas
Equipment-based route index of inherent safety,2020,39,Suppl 1,e12108,Athar
Incident investigation work-aid tool for process safety management compliance in process industries,2020,39,Suppl 1,e12113,Shariff
Remaining useful life prediction of crude oil pipeline by means of deterioration curves,2020,39,Suppl 1,e12112,Shaik
Effect of wind directions on human injury and fatality risk modeling due to vapor cloud explosion in offshore platforms,2020,39,Suppl 1,e12123,Niazi
Assessment of explosibility and explosion severity of rice flour at different concentration and ignition time,2020,39,Suppl 1,e12107,Sulaiman
Modeling impacts of combustion products on humans in complex processing facilities,2020,39,Suppl 1,e12114,Khan
Human factors influencing the reliability of fire and gas detection system,2020,39,Suppl 1,e12116,Rusli