This is the fifth video in our mini series to help you better understand fan fundamentals. James Mathis, National Sales Manager, reviews Centrifugal Fan Arrangements including arrangements 1, 3, 4, 7, 8, 9 and 10 as well as Axial Fan Arrangements including all variations of arrangements 4 and 9.

This is the fourth video in our mini series to help you better understand fan fundamentals! James Mathis, National Sales Manager, continues the series by outlining axial fan types, the associated performance characteristics, and their various wheel designs. For additional review of axial wheel types, check out our latest brochure highlighting the wheel types, their applications, and various features such as air flow, pressure, and noise. https://www.nyb.com/pdf/Catalog/Broch...

This is the second video in our mini series to help you better understand fan fundamentals! James Mathis, National Sales Manager, continues the series by breaking down the basics of fan curves. This includes the information that appears on a fan curve, how data is plotted, and how a system impacts fan performance. To put these concepts into practice, visit our website and access our fan selection software: https://bit.ly/Fan-Selection-Software

This is the third video in our mini series to help you better understand fan fundamentals!

James Mathis, National Sales Manager, continues the series by outlining centrifugal fan types, their various wheel designs, and the applications they are best suited for. Find out what centrifugal fan type is best suited for your installation!

This is the first video in our new mini series to help you better understand fan fundamentals. James Mathis, National Sales Manager, reviews the first three fan laws which describe how airflow, static pressure, and horsepower consumption are impacted by a change in fan operating speed.

In this video, New York Blower''s Manager of Products and Applications, Tom Mitrenga, discusses the impact wheel position, as it relates to inlet cone clearance, can have on the performance and lifespan of an industrial fan. Utilizing nyb''s AMCA accredited laboratory and testing facility, we can compare the air flow (CFM), static pressure (SP), and horse power (BHP) of a single-width fan when the wheel is at various positions.

The New York Blower Company has a long history of research and development and this testing facility is a major contributor to that work. nyb''s laboratory was originally opened in 1980 and then substantially expanded in 2014. This facility is the largest AMCA accredited testing facility in North America and includes two induced draft chambers and four forced draft chambers to accommodate any testing requirements. We are extremely excited about this testing facility and the amazing engineering team that work every day to better serve our customers.

Discover the rich history of The New York Blower Company which, to this day, drives our uncompromising quality and enduring commitment to our customers!

We are excited to announce the most recent addition to New York Blower''s video catalog, What Happens When a Backward-Inclined Centrifugal Fan Is Run Backwards?

In this video, New York Blower''s lead aerodynamic expert and P.E., Matt Raymond discusses a commonly asked question, what happens when a backward-inclined centrifugal fan is run backwards? Using a clockwise, size 33, airfoil fan mounted on an AMCA accredited test chamber, we are able to evaluate how wheel rotation impacts static pressure, air flow, and break horse power. More information on nyb fans and blowers, please visit our website at https://www.nyb.com and subscribe to our channel for future videos!

A demonstration on how 90 deg. elbows effect fan performance. Chapters: 0:00 Intro 0:13 Safety 0:36 Equipment 1:15 Demonstration 3:45 Final Thoughts

A demonstration on how a properly designed and an improperly designed inlet box play a dramatic effect on the way a fan performs. Chapters: 0:00 Intro 0:16 Safety 0:38 Equipment 1:13 Demonstration 5:09 Final Thoughts

In this video, Dave explains how a straight run of ductwork can change or alter a system's performance, whereas in the previous videos Dave demonstrated how systems effect or change the way a fan performs. Chapters: 0:00 Intro 0:17 Safety 0:37 Equipment 1:19 Demonstration - Ductwork 2:03 Demonstration - Bellmouth 2:36 Final Thoughts

Watch how corkscrew ductwork mounted at/near the fan inlet has a dramatic effect on fan performance. 0:00 Intro 0:20 Safety 0:47 Equipment 1:28 Demonstration - 90 Degree Elbows 4:03 Demonstration Part 2 - Straight Run of Duct 4:51 Final Thoughts

In this video, we discuss how straight runs of discharge ductwork improves fan performance.
0:00 Intro 0:14 Safety 0:43 Equipment 1:14 Demonstration 3:43 Final Thoughts

In this video, we discuss how discharge elbows can alter a fan's performance. 0:00 Intro 0:15 Safety 0:36 Equipment 1:00 Demonstration 2:32 Final Thoughts