Stanley G. Budzynski, Jr. is an experienced fire protection and risk management consultant with over 40 years of experience. He has provided consulting services to companies in various industries, analyzing fire risks, developing training programs, and inspecting facilities. Some of his significant clients include Hibernia Management & Development Co., Ashland Oil, ARAMCO, GATX, Witco, and the U.S. Navy. Prior to his private consulting practice, he worked as an engineer at Mobil Research & Development Corporation and Goodyear Atomic Corporation, where he specialized in fire protection and risk analysis for chemical plants and offshore oil platforms.
Actual trends in software development are pushing the need to face a multiplicity of diverse activities and interaction styles characterizing complex and distributed application domains, in such a way that the resulting dynamics exhibits some grade of order, i.e. in terms of evolution of the system and desired equilibrium. Autonomous agents and Multiagent Systems are argued in literature as one of the most immediate approaches for describing such a kind of challenges. Actually, agent research seems to converge towards the definition of renewed abstraction tools aimed at better capturing the new demands of open systems. Besides agents, which are assumed as autonomous entities purposing a series of design objectives, Multiagent Systems account new notions as first-class entities, aimed, above all, at modeling institutional/organizational entities, placed for normative regulation, interaction and teamwork management, as well as environmental entities, placed as resources to further support and regulate agent work.
The starting point of this thesis is recognizing that both organizations and en- vironments can be rooted in a unifying perspective. Whereas recent research in agent systems seems to account a set of diverse approaches to specifically face with at least one aspect within the above mentioned, this work aims at proposing a unifying approach where both agents and their organizations can be straightforwardly situated in properly designed working environments. In this line, this work pursues reconciliation of environments with sociality, social interaction with environment based interaction, environmental resources with organizational func- tionalities with the aim to smoothly integrate the various aspects of complex and situated organizations in a coherent programming approach. Rooted in Agents and Artifacts (A&A) meta-model, which has been recently introduced both in the context of agent oriented software engineering and programming, the thesis pro- motes the notion of Embodied Organizations, characterized by computational infrastructures attaining a seamless integration between agents, organizations and environmental entities.
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Actual trends in software development are pushing the need to face a multiplicity of diverse activities and interaction styles characterizing complex and distributed application domains, in such a way that the resulting dynamics exhibits some grade of order, i.e. in terms of evolution of the system and desired equilibrium. Autonomous agents and Multiagent Systems are argued in literature as one of the most immediate approaches for describing such a kind of challenges. Actually, agent research seems to converge towards the definition of renewed abstraction tools aimed at better capturing the new demands of open systems. Besides agents, which are assumed as autonomous entities purposing a series of design objectives, Multiagent Systems account new notions as first-class entities, aimed, above all, at modeling institutional/organizational entities, placed for normative regulation, interaction and teamwork management, as well as environmental entities, placed as resources to further support and regulate agent work.
The starting point of this thesis is recognizing that both organizations and en- vironments can be rooted in a unifying perspective. Whereas recent research in agent systems seems to account a set of diverse approaches to specifically face with at least one aspect within the above mentioned, this work aims at proposing a unifying approach where both agents and their organizations can be straightforwardly situated in properly designed working environments. In this line, this work pursues reconciliation of environments with sociality, social interaction with environment based interaction, environmental resources with organizational func- tionalities with the aim to smoothly integrate the various aspects of complex and situated organizations in a coherent programming approach. Rooted in Agents and Artifacts (A&A) meta-model, which has been recently introduced both in the context of agent oriented software engineering and programming, the thesis pro- motes the notion of Embodied Organizations, characterized by computational infrastructures attaining a seamless integration between agents, organizations and environmental entities.
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Skilled & dedicated Health, Safety & Environment Executive with more than 5 years’ experience in the various industries such construction (houses, infrastructure, drainage), Oil & Gas processing plant (Mechanical, civil structure, piping, instrumentation), Marine logistics (Support offshore production & drilling operation, rig move, towing, anchor handling) with basic qualifications in Bachelor of Science (Hons) Marine Science and additional qualification in Health, Safety & Environment by NIOSH. Highly pro-active and articulate in communication and possessing excellent leadership, management and persuasive skills towards health, safety and environment culture in work place.
• Supervises implementation of the Occupational Health & Safety and Environmental Management System and Food Safety Management System aligned to client's requirements.
• Consistently monitors day-to-day compliance to QHSE and Food Safety standards across all operations.
• Formulates relevant procedures, reviewing and updating them as needed to suit operational requirements.
• Prepares and reviews Job Safety Analysis (JSA), Risk Assessments and other relevant documents required by the operation.
• Investigates and formulates corrective and preventive actions for operational gaps, mitigate hazards & improve current systems & procedures.
• Conducts regular internal QHSE and Food Safety inspections and audits. Likewise facilitates external audits by the client and/or government agencies.
• Conducts trainings and employee inductions, leads Toolbox Talks & Safety meetings.
• Mentoring of local and national PNG staff to escalate effective transfer of skills.
• Provides safety performance updates to management; generates performance reports and other relevant data required by the client.
1. Stanley G. Budzynski, Jr.
441 Sterling Street, Newtown, PA 18940 phone: (215) 860-0646 email: stas@voicenet.com
EXPERIENCE SUMMARY
Capable consultation to mitigate hazards and risks with realistic, cost effective strategies
Private Engineering Practice 1995 - Present
Providing consulting engineering services in fire protection, loss prevention, risk management, and explosion analysis.
Some of the most significant consulting work and clients have been:
● Analyze the fire risk of insulation installed on process vessels and analyze the choices of safety-of-life-at-sea (SOLAS) evacuation
equipment for an offshore platform under construction for Hibernia Management & Development Co. in Newfoundland.
● Develop & present a training program about ignition from static electricity at gasoline retail facilities for Ashland Oil.
● Develop a 3-day training course entitled “Design & Loss Prevention for Fuel Loading Facilities” and present the course at four
locations for ARAMCO in Saudi Arabia.
● Perform a process safety inspection and a HAZOP for a GATX New Jersey USA fuel loading facility for trucks and railcars.
● Investigate and analyze a fire at a lubrication oil & wax production facility for Witco.
● Inspect a floating-production-storage-offloading (FPSO) vessel offshore of Equatorial Guinea, Africa.
● Inspect, analyze, design and assist in the oversight during construction of improvements to fire protection, health, and safety at an
extremely large, strategic, underground fuel storage facility at Pearl Harbor for the U.S. Navy – Fuel Division.
● Serve as the Risk Management Engineer for Occidental of Oman for the Safah Facilities for 12 months via short-term subcontract.
MOBIL RESEARCH & DEVELOPMENT CORPORATION, PENNINGTON, NJ 1981 - 1995
Engineering Department, Associate Loss Prevention Engineer
Provided engineering support and technical assistance to all of Mobil’s affiliate companies in regards to:
onshore and offshore process & facility design to minimize risks, process safety & hazards analysis, fire protection and safety system
design, explosion suppression techniques & analysis, applications of fireproofing materials, pressure relieving and flare system
design and, fire & accident investigations. Most significant assignment was to participate with an engineering team from 1989 to
1993 to analyze and determine solutions to mitigate explosion and fire risks on offshore platforms in the North Sea in order to
convince UK regulators that an accident like the 1988 “Piper Alpha” accident would not be possible on Mobil offshore platforms.
GOODYEAR ATOMIC CORPORATION, PIKETON, OH 1974 - 1981
Section Head of Fire Protection
Administered a highly protected risk (HPR) fire protection program. Supervised a staff of three engineers and six fire department
officers of a 20-person full time fire department that also inspected, tested and maintained all fixed fire protection systems.
Naval Facilities Engineering Command, Pacific Division, Honolulu, HI 1973 - 1974
Fire Protection Engineer
SPECIAL EXPERTISE
● Practical chemical engineering calculation capability
● Deciphering Process & Instrument Diagrams (P & IDs) and Process Flow Diagrams (PFDs)
● Computer literate - PCs, workstations, mainframes (e.g. MSOffice suite, UNIX)
● Experience as a fire fighter and emergency medical technician
● Private Pilot – Instrument Rated
EDUCATION
University of Maryland, Bachelor of Science, Fire Protection Engineering
University of Ohio, Engineering Science, Graduate Courses
PROFESSIONAL REGISTRATION/PROFESSIONAL SOCIETIES
Professional Engineer (PE) – Pennsylvania (by examination)
Member - Society of Fire Protection Engineers (SFPE)
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2. Stanley G. Budzynski, Jr.
441 Sterling Street, Newtown, PA 18940
Phone (215) 860-0646 email: stas@voicenet.com
CAPABILITIES
Fire Protection Engineering
NFPA Standard Interpretation & Application Life Safety Code Surveys & Inspections
Fire Water System Surveys, Flow Tests, Fire Pump Testing
Fire Sprinkler System Design Fire Protection Audits, Inspections, Surveys & Testing
Flammable Liquids Code Surveys & Inspections
Process Safety
OSHA Process Safety Management (PSM) EPA - Clean Air Act - Process Risk Management Program (RMP)
HAZOP / What-If Study Leadership Emergency Plan Preparation
Toxic and Flammable Gas Dispersion Analysis
Accident Investigation
Fire and Process Risks of Hydrocarbon and Chemical Plants
Flammable & Combustible Liquids and Flammable Gas Safety & Hazards Analysis
Chemical, Hydrocarbon, LNG and LPG Process Plant Layout
Offshore Oil & Gas Platform Equipment Layout, Fire Protection Design & SOLAS Requirements
Special Risk Issues
Expert Advice and Consultation on Fire Protection Matters
Aircraft Hangers Computer Rooms High Rise Warehouses Water Cooling Towers
Fire Fighting Foam Fireproofing Materials Fuel Storage Facilities
Interpretation of Fire Test Results Fire & Accident Incident Investigation
Oil & Gas Producing Facilities – Onshore & Offshore - Fixed and Floating
Explosion Consequences - Analysis & Mitigation Safety of Life at Sea
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