The recordings for Parts 1 & 2 are below.
Rotary Pump Fundamentals and Shipboard Applications
Overview:
Rotary pumps are positive-displacement machines in which one or more pumping
elements rotate within a stationary chamber. Unlike a centrifugal pump in which a liquid is accelerated, a
rotary pump traps fluid within cavities in its rotating elements that are sealed by the inner wall of the
casing. As each rotor turns, the trapped fluid is forced through the casing. Various types of rotary pumps
are used in a variety of shipboard applications in both horizontally and vertically mounted configurations.
This includes fuel-oil and lubricating-oil pumps for propulsion and auxiliary equipment, steering-gear
pumps, and pumps used in hydraulic systems that can power deck machinery, cargo pumps, or
controllable-pitch-propeller actuators. During this 2-part webinar, the design features and operating
characteristics of various rotary pump types will be reviewed, along with their use in different shipboard
systems (shipboard systems will be the focus of Part 2).
Part 1 occured on November 16, and Part 2 occured on November 30. Part 1 was
worth 2 PDH, and Part 2 was worth 1.5 PDH.
Rotary Pump Fundamentals and Shipboard Applications: Part 1 Recording
Rotary Pump Fundamentals and Shipboard Applications: Part 2 Recording
Date & Time for Part 2: November 30th, 2022; 1300-1430 ET (Presentation with live
Q&A discussion) Audience: All engineers, program managers, executives, and students
interested in pumps, especially rotary pumps.
Virtual Course Format: This presentation and
discussion will occur in Microsoft Teams. If you do not have Teams, you will be able to view this event in
your browser.
Enrollment Fee: FREE!
Professional Development Hours: 1.50 Hour
(free for ASNE Members or $40 for nonmembers. Please use the ASNE PDH
form and send it to education@navalengineers.org.)
Questions:
Please email education@navalengineers.org or call ASNE HQ
at (703) 836-6727.
Presenter's Biography
Dr. Bill Sembler
Dr. William J. Sembler is a former Principal Engineer (2019 to 2021) and Vice President
of Engineering (2014 to 2019) at Coffin Turbo Pump, Inc., a company that specializes in designing,
manufacturing, testing, and servicing boiler feed pumps. While serving as VP of Engineering, he was
responsible for all of the company’s engineering functions, including boiler operation and
testing. In addition, Dr. Sembler brought computerized design techniques to Coffin, including the use of
computational fluid dynamics. He joined Coffin in 2014 after retiring as Head of the Department of
Engineering at the United States Merchant Marine Academy (USMMA), where he had been a faculty member for
22 years developing and teaching various courses in marine and mechanical engineering. In addition, Dr.
Sembler sailed as an Engineering Officer during training cruises aboard SUNY Maritime College’s
T.S. Empire State from 1993 to 2000, and from 2002 to 2006, he served as Chief Engineer on the USMMA
training vessel, the T/V Kings Pointer. From 2000 until 2012, he was also an ABET Program Evaluator for
accredited college and university programs in marine engineering and naval architecture. Prior to being
appointed to the faculty at the USMMA, Dr. Sembler had over 15 years of pump-company experience with
Worthington Pump Corp. in various marine sales and engineering positions, including Manager of the
Marine and Navy Engineering Department. In this latter position, he was responsible for the satisfactory
design of all Worthington pumps supplied from the USA for commercial marine and naval vessels. Dr.
Sembler has a B.S. from the USMMA in Marine Engineering and Nautical Science, as well as both a Master
of Engineering and the Degree of Mechanical Engineer from Stevens Institute of Technology. In addition,
he has a Ph.D. in Mechanical Engineering from Polytechnic Institute of NYU. Dr. Sembler is also a
licensed Professional Engineer in the states of NY and NJ and has held USCG licenses as Chief Engineer
of Steam, Motor, or Gas Turbine Vessels of any Horsepower and Third Mate of Steam or Motor Vessels of
any Gross Tons upon Oceans, and he is a licensed stationary engineer (boiler operator) in the state of
NJ. Dr. Sembler is a member of the American Society of Naval Engineers (ASNE). He is also a Life Fellow
in the Society of Naval Architects and Marine Engineers (SNAME) and is a past Chairman of SNAME’s
New York Metropolitan Section (2000 – 2001), as well as a past Northeast Regional Vice President
(2002 – 2004). He also served as the Faculty Advisor to the USMMA SNAME Student Section from 1995
to 2005. Dr. Sembler received SNAME’s Distinguished Service Award in 2000, and he received the
Rear Admiral Lauren S. McCready Award for Outstanding Achievement in Marine Engineering from the USMMA
Alumni Foundation in 2003 and the Maritime Service Superior Performance Medal in 2014. He was also
awarded with the honorary title of Professor Emeritus after retiring from the USMMA. Dr. Sembler is a
published author of technical papers and textbook chapters on marine pump design and operation,
including the chapter on pumps, compressors, blowers, and ejectors in the upcoming 4th edition of
SNAME’s Marine Engineering, and on the analysis and use of fuel cells in marine applications.
Details from Part 1
Date & Time: November 16th, 2022; 1300-1500 ET (Presentation with live Q&A
discussion)
Audience: All engineers, program managers, executives, and students
interested in pumps, especially rotary pumps.
Virtual Course Format: This presentation and
discussion will occur in Microsoft Teams. If you do not have Teams, you will be able to view this event
in your browser.
Enrollment Fee: FREE!
Professional Development Hours:
2.00 Hour (free for ASNE Members or $40 for nonmembers)
Questions: Please
email education@navalengineers.org or call ASNE HQ at
(703) 836-6727.
Questions, comments, suggestions? Email us at education@navalengineers.org