Registration: 8:00 - 8:30 am
Morning Session: 8:30 am - 12:00 pm
Lunch (On your own): 12:00 - 1:00 pm
Afternoon Session: 1:00 - 4:30 pm
Anatomy of a Fire
History and science behind development of fire protection design
Overview of fire growth and characteristics
The role that building construction plays in fire behavior
How codes are written to address fire resistance ratings,
ventilation, egress, fire fighter access
Case study showing integration with overall building life safety performance
NFPA 13 Design Approach
Definition of responsible charge in the design of a sprinkler system
Engineer vs. contractor responsibilities for the design of automatic sprinkler systems
Design approaches for construction documents applied to NFPA 13
Establishing levels of contractor competency for degree of project complexity
Case study for application of design approaches to NFPA 13
What is the right level of fire protection design to optimize installation cost?
What’s Eating Your Pipes? – How Corrosion Can Cause Your Sprinkler
System to Fail and How to Fight it
Corrosion in fire protection systems is a growing problem
Steps in combating the corrosion problem
Various types of corrosion that can take place in fire protection systems
Specific information on ways to size up the corrosion problem, overview of
NFPA 25 specified maintenance requirements and techniques to mitigate corrosion
Case studies of existing buildings to emphasize corrosion issues associated
with the upkeep of sprinkler systems
Hazard Evaluation vs. Risk Analysis – A Way of Thinking
Steps that code enforcement officials, engineers, and architects can take in dealing with
hazards and risks within structures that are not addressed by the building and firecodes
The difference between hazard evaluations and risk analysis
Examples of quantifying hazards and risk along with implementing risk management plans
A case study of a fire to emphasize the value of a hazard and risk analysis
Hazard evaluations and risk analysis for the evaluation of an existing building
Manufacturing and Industrial Occupancies –
The Specialized Knowledge You Should Have
Identifying the level of protection that codes may not prescribe
Developing hazardous level classification
How to apply performance-based requirements of the codes
Developing customized detection and suppression design criteria
Fire Protection for Data Centers
Outline the design professional’s responsibilities in the development of data
center fire protection systems
Technical details specified and defined in the Building Code and NFPA standards
Developing customized detection and suppression design criteria
Who Should Attend
6.5 HSW Contact Hours
6.5 AIA LU|HSW
Certified Code Officials
6.5 Credit Hours
(Fire and Building Inspectors.)
International Code Council
.65 CEUs (Fire)
Non-Credit Continuing Ed.
Continuing Education Credit Information
This seminar is open to the public. It offers 6.5 HSW continuing education hours to architects and 6.5 PDHs to professional engineers in all states. Educators and courses are not subject to preapproval in Pennsylvania.
HalfMoon Education is an approved continuing education sponsor for engineers in Florida, Indiana (License No. CE21700059), Maryland, New Jersey (Approval No. 24GP00000700), North Carolina, and North Dakota.
HalfMoon Education is deemed a New York-approved continuing education provider for engineers and architects via its registration with the American Institute of Architects Continuing Education System (Regulations of the Commissioner §68.14(i)(2) and §69.6(i)(2)).
This seminar is approved by the American Institute of Architects Continuing Education System for 6.5 LU|HSW (Provider No. J885). Visit www.halfmoonseminars.org for complete AIA/CES information under this seminar listing. Only full attendance is reportable to the AIA/CES.
The Pennsylvania Department of Labor and Industry has approved HalfMoon Education as a continuing education provider for certified code officials. This course offers 6.5 credit hours, specifically related to Building and Fire Inspectors.
The International Code Council has approved this event for .65 CEUs in the specialty area of Fire.
This seminar offers a non-credit continuing education opportunity for construction contractors. It has not been approved by any state contractor licensing entity with a continuing education requirement.
Attendance will be monitored, and attendance certificates will be available after the seminar for most individuals who complete the entire event. Attendance certificates not available at the seminar will be mailed within 15 business days.
Principal at RAN Fire Protection Engineering, P.C.
Mr. Crivello is a fire protection project engineer for RAN Fire Protection Engineering, P.C., and a technical staff member at truVUE Inspection Technologies. His education includes a bachelor of science degree in Mechanical Engineering from Rensselaer Polytechnic Institute, along with a master of science degree in Fire Protection Engineering from Worcester Polytechnic Institute. He has passed the principles and practices of engineering exam in fire protection engineering to become a licensed professional engineer. Mr. Crivello has worked as a lead design engineer for fire protection systems in all types of buildings for the last six years. As a fire protection engineer, Mr. Crivello’s responsibilities include complete design of fire protection systems, specializing in fire suppression and fire alarm design. The scope of his responsibilities includes contract drawings, specifications, and construction administration services. Mr. Crivello has worked in fire protection design on commercial, healthcare, industrial, historical and residential buildings. He has designed fire protection systems for these types of buildings, including fire alarm, sprinkler/standpipe, water spray, foam and agent systems. His experience with existing buildings includes the documentation of as-built conditions for fire protection system plans to evaluate system reliability. Mr. Crivello’s knowledge of national, state and NFPA codes make him an expert in fire protection code analysis and compliance review. His experience includes the analysis and design of life safety and egress solutions including architectural egress components, evacuation planning, and crowd management. He is also experienced in master planning and code consulting. With Mr. Crivello’s educational and application design background, he has specialized in the discipline of industrial fire protection engineering. He has worked diligently on performing fire hazard analyses, including code compliance, fire risk assessment, explosion protection, flammable and combustible liquids storage, and the control of toxic gases.
President at RAN Fire Protection Engineering, P.C.
Mr. Nadeau, P.E., is the president of RAN Fire Protection Engineering, P.C., and vice president of truVUE Inspection Technologies. He is a licensed fire protection engineer, certified fire protection specialist and LEED accredited professional. His education includes a bachelor of science degree in both Mechanical Engineering and Physics, along with a master of science degree in Fire Protection Engineering from Worcester Polytechnic Institute. Mr. Nadeau has worked as a lead design engineer for fire protection and plumbing systems in all types of buildings and uses for more than 20 years. Mr. Nadeau has been recognized as a leader in the field of fire protection engineering. He has been responsible for the complete design of fire protection and mechanical systems, including contract drawings and specifications as well as project coordination, administration, construction management and cost estimating. He has conducted risk evaluations of various building features involving building code application, fire modeling, and identification and resolution of hazardous conditions. Mr. Nadeau has a long history of experience with commercial, public, and institutional buildings. His work has involved the development of risk mitigation techniques and life safety systems specific to building design. He has conducted studies analyzing the protection of the facility property, the protection of occupants, and the redundancies necessary to provide a continuity of business function in the case of a fire emergency. Mr. Nadeau began his career in the heart of Boston, designing fire protection systems for high-rise buildings of both a prescriptive and performance-based nature. His work evaluating the life safety provisions inherent to the Uniform Building Code (UBC), Southern Building Code (SBC), and Building Officials and Code Administrators (BOCA) has been internationally published. In addition, his expertise in the determination and application of the intent of building codes has allowed him to function as a reference for state agencies and local municipalities.
|Online Tuition (pre-registration):
|3 or more people each:
Each registration includes one copy of a manual prepared by the seminar speakers.
AIA Provider Statement:
HalfMoon Education Inc. is a registered provider of AIA-approved continuing education under Provider Number J885. All registered AIA/CES Providers must comply with the AIA Standards for Continuing Education Programs. Any questions or concerns about this provider of learning program may be sent to AIA/CES (email@example.com or (800) AIA 3837, Option 3).
This learning program is registered with AIA/CES for continuing professional education. As such, it does not include content that may be deemed or construed to be an approval or endorsement by the AIA of any material of construction or any method or manner of handling, using, distributing, or dealing in any material or product.
AIA continuing education credit has been reviewed and approved by AIA/CES. Learners must complete the entire learning program to receive continuing education credit. AIA continuing education Learning Units earned upon completion of this course will be reported to AIA/CES for AIA members. Certificates of Completion for both AIA members and non-AIA members are available upon request.
Course Title: Designing for Fire Protection
Delivery Method: Live
Course Description: This 6.5 hour, live lecture presentation examines the anatomy of fires, causes of sprinkler system failures, NFPA 13 compliance standards for sprinkler system design.
Learning Objective 1:
Learners will be able to discuss how building construction affects the behavior of fires and how building codes are written to address fire resistance ratings, ventilation, egress, and fire fighter access to structures.
Learning Objective 2:
Learners will be able to reference and comply with NFPA 13 standards for the design of sprinkler systems in structures.
Learning Objective 3:
Learners will be able to explain how corrosion can lead to sprinkler system failures and what steps can be taken to prevent corrosion problems.
Learning Objective 4:
Learners will be able to describe what actions can be taken by design professionals for dealing with fire hazards and risks within structures that are not addressed by building and fires codes.
Learning Objective 5:
Learners will be able to identify specialized knowledge necessary for fire protection for manufacturing and industrial occupancies that are not addressed in building codes.
Learning Objective 6:
Learners will be able to discuss the design professional responsibilities in the development of data center fire protection systems.
LUs: 6.5 LU Type: LU|HSWs.
Prerequisites: Familiarity with fire protection.
Advance Preparation: None
Program Level: Intermediate
Course Expiration Date: 02/07/2023
Complaint Resolution Policy:
Complaints regarding this course can be emailed to firstname.lastname@example.org or by calling (715) 835-5900. A HalfMoon Education representative will respond within 72 hours to resolve the complaint, which will include, but not limited to, access to another CE activity at no or reduced cost or a full or partial refund. Each instance will be resolved on a case-by-case situation.