Architecture & Design
Shake, rattle & roll

How much consideration do you give to potential issues with vibration and noise when constructing a gym? Martin McNulty explains why it should be a top priority

Published in Health Club Management 2017 issue 3
Read in digital edition Download PDF of this issue
For operators using interesting old buildings not originally designed for gym use, pre-empting and addressing noise and vibration issues is key

A gym is often at the top of apartment seekers’ wish lists, with prospective tenants willing to pay a premium for this luxury. This demand has resulted in a surge in fitness facilities within residential and mixed-use developments, particularly in prime inner city locations – and with these locations, of course, come neighbours.

Unfortunately, most buildings are not designed for gym use so, if not planned appropriately, fitness centres can bring with them significant noise and vibration problems for neighbours – problems which are neither simple nor cheap to fix.

With 24-hour gym access now vital due to today’s busy lifestyles, complaints associated with noise from gyms are on the rise – particularly in relation to treadmill pounding, free weights and resistance machines, and other high-impact activities such as dance classes.

How much is too much?
In the world of acoustic and vibration consultancy, a lack of accepted industry-wide design guidance creates uncertainty when determining noise levels. This means the resolution process for problem cases can be protracted, litigious and expensive.  

To complicate matters, assessing a space for a gym and predicting sound and vibration is a complex process, unique to each structure. That said, there is advice to bear in mind either when considering new locations, or when working to resolve issues in older spaces.

Whether the development is old or new, it’s likely that mitigation measures will be required, and the gym operator will have a multitude of products to consider. Invariably, the final choice will be cost-driven, but most operators will also consider the technical performance stated within brochures and data sheets. At face value, these may promise an attractive reduction in noise – enough to permit worry-free gym use. However, the reality is that products frequently underperform in the frequency range of interest – for gyms, this is mainly low-frequency structure-borne noise (the bass frequency range) and tangible vibration – and in some instances can even exacerbate issues.

We should also be alert to the extent to which noise and vibration needs to be reduced, as this will vary depending on the neighbour. Residents of a luxury apartment complex, for example, may have a greater reason to complain than occupants of a busy open-plan office. In areas shared with residential dwellings, mitigation may only be deemed satisfactory when noise or vibration cannot be perceived. Acquiring this level of control may not be practical unless working within the most forgiving of structures – for example, those which have high inherent mass and stiffness, or are orientated so there are buffer zones between properties.

Acoustic testing
So mitigation measures, and the target levels they should achieve, pose difficult questions. The most reliable way for operators to establish (and perhaps show the local authority) that a site and its proposed fit-out finishes will be fit for purpose is to undertake acoustic tests prior to any tenant agreement. This might also reinforce the gym operator’s position should a dispute with neighbours arise.

Testing methods can be relatively inexpensive and crude by modern standards. In the case of free weights, all that’s required is a test patch of flooring and weights representative of those to be used, which are dropped on it from a range of heights corresponding to the height of various gym users.

Testing of items such as treadmills is more difficult due to the logistics of installing a machine prior to fit-out. Furthermore, some structures may not respond to the effects of a single treadmill, so multiple machines may be needed to get the structure into motion. That said, to an experienced practitioner, the free weight drop tests can impart a great deal of knowledge about a structure and its ability to curtail noise and vibration, and these characteristics can then be interpreted for treadmill machines.

Avoiding issues
Finally, it should be noted that in highly sensitive areas, or in structures prone to being easily excited by vibrational sources, floor build-ups designed to mitigate noise and vibration can be excessive. In many cases, for example, an isolated concrete platform mounted on springs is required to reduce the impact of the gym on the building – but this poses questions not only about cost, but also about structural integrity given the additional loading. If this need is determined early in the site-acquisition process, an informed decision can be made about whether to proceed.

By gathering information early in the process, the operator might be saved from costly, and perhaps ultimately unfeasible, mitigation measures further down the line. If results are favourable at the outset, the gym operator can proceed knowing they have anticipated and averted problems, and are well-placed should a dispute arise.


New build or refurb?
Refurbishments
Recently constructed or refurbishment schemes pose a unique problem, because it’s unlikely there will be adequate knowledge about how the structure controls noise or vibration transmission – and the structure may also be defective. Many gym operators sign on the dotted line without testing the suitability of a location and, once in, measures can be difficult to implement.

New builds
In new-build developments, a gym operator may not have been the tenant foreseen from the outset, so it’s unlikely the property will have been built with a gym in mind; robustness of the construction may have been overlooked. The incoming operator may assume that modest mitigation measures such as matting will be sufficient, but in practice such measures rarely suffice.

On a positive note, new-build schemes give the acoustician an opportunity to work with the structural engineer to design a construction that’s resistant to vibration from treadmills and free weights.

About the author

 

Martin McNulty
 

Martin McNulty is an executive acoustic engineer and leader of the vibration team at Hoare Lea Acoustics, one of the largest independent acoustic groups in the UK.

[email protected]

www.hoareleaacoustics.com


Gym concepts for multi-use sites must be well tested for noise and vibration before the project proceeds Credit: shutterstock
 


CONTACT US

Leisure Media
Tel: +44 (0)1462 431385

©Cybertrek 2024
ABOUT LEISURE MEDIA
LEISURE MEDIA MAGAZINES
LEISURE MEDIA HANDBOOKS
LEISURE MEDIA WEBSITES
LEISURE MEDIA PRODUCT SEARCH
PRINT SUBSCRIPTIONS
FREE DIGITAL SUBSCRIPTIONS
 
06 May 2024 Leisure Management: daily news and jobs
 
 
HOME
JOBS
NEWS
FEATURES
PRODUCTS
FREE DIGITAL SUBSCRIPTION
PRINT SUBSCRIPTION
ADVERTISE
CONTACT US
Sign up for FREE ezine

Features List



SELECTED ISSUE
Health Club Management
2017 issue 3

View issue contents

Leisure Management - Shake, rattle & roll

Architecture & Design

Shake, rattle & roll


How much consideration do you give to potential issues with vibration and noise when constructing a gym? Martin McNulty explains why it should be a top priority
For operators using interesting old buildings not originally designed for gym use, pre-empting and addressing noise and vibration issues is key
Gym concepts for multi-use sites must be well tested for noise and vibration before the project proceeds shutterstock

A gym is often at the top of apartment seekers’ wish lists, with prospective tenants willing to pay a premium for this luxury. This demand has resulted in a surge in fitness facilities within residential and mixed-use developments, particularly in prime inner city locations – and with these locations, of course, come neighbours.

Unfortunately, most buildings are not designed for gym use so, if not planned appropriately, fitness centres can bring with them significant noise and vibration problems for neighbours – problems which are neither simple nor cheap to fix.

With 24-hour gym access now vital due to today’s busy lifestyles, complaints associated with noise from gyms are on the rise – particularly in relation to treadmill pounding, free weights and resistance machines, and other high-impact activities such as dance classes.

How much is too much?
In the world of acoustic and vibration consultancy, a lack of accepted industry-wide design guidance creates uncertainty when determining noise levels. This means the resolution process for problem cases can be protracted, litigious and expensive.  

To complicate matters, assessing a space for a gym and predicting sound and vibration is a complex process, unique to each structure. That said, there is advice to bear in mind either when considering new locations, or when working to resolve issues in older spaces.

Whether the development is old or new, it’s likely that mitigation measures will be required, and the gym operator will have a multitude of products to consider. Invariably, the final choice will be cost-driven, but most operators will also consider the technical performance stated within brochures and data sheets. At face value, these may promise an attractive reduction in noise – enough to permit worry-free gym use. However, the reality is that products frequently underperform in the frequency range of interest – for gyms, this is mainly low-frequency structure-borne noise (the bass frequency range) and tangible vibration – and in some instances can even exacerbate issues.

We should also be alert to the extent to which noise and vibration needs to be reduced, as this will vary depending on the neighbour. Residents of a luxury apartment complex, for example, may have a greater reason to complain than occupants of a busy open-plan office. In areas shared with residential dwellings, mitigation may only be deemed satisfactory when noise or vibration cannot be perceived. Acquiring this level of control may not be practical unless working within the most forgiving of structures – for example, those which have high inherent mass and stiffness, or are orientated so there are buffer zones between properties.

Acoustic testing
So mitigation measures, and the target levels they should achieve, pose difficult questions. The most reliable way for operators to establish (and perhaps show the local authority) that a site and its proposed fit-out finishes will be fit for purpose is to undertake acoustic tests prior to any tenant agreement. This might also reinforce the gym operator’s position should a dispute with neighbours arise.

Testing methods can be relatively inexpensive and crude by modern standards. In the case of free weights, all that’s required is a test patch of flooring and weights representative of those to be used, which are dropped on it from a range of heights corresponding to the height of various gym users.

Testing of items such as treadmills is more difficult due to the logistics of installing a machine prior to fit-out. Furthermore, some structures may not respond to the effects of a single treadmill, so multiple machines may be needed to get the structure into motion. That said, to an experienced practitioner, the free weight drop tests can impart a great deal of knowledge about a structure and its ability to curtail noise and vibration, and these characteristics can then be interpreted for treadmill machines.

Avoiding issues
Finally, it should be noted that in highly sensitive areas, or in structures prone to being easily excited by vibrational sources, floor build-ups designed to mitigate noise and vibration can be excessive. In many cases, for example, an isolated concrete platform mounted on springs is required to reduce the impact of the gym on the building – but this poses questions not only about cost, but also about structural integrity given the additional loading. If this need is determined early in the site-acquisition process, an informed decision can be made about whether to proceed.

By gathering information early in the process, the operator might be saved from costly, and perhaps ultimately unfeasible, mitigation measures further down the line. If results are favourable at the outset, the gym operator can proceed knowing they have anticipated and averted problems, and are well-placed should a dispute arise.


New build or refurb?
Refurbishments
Recently constructed or refurbishment schemes pose a unique problem, because it’s unlikely there will be adequate knowledge about how the structure controls noise or vibration transmission – and the structure may also be defective. Many gym operators sign on the dotted line without testing the suitability of a location and, once in, measures can be difficult to implement.

New builds
In new-build developments, a gym operator may not have been the tenant foreseen from the outset, so it’s unlikely the property will have been built with a gym in mind; robustness of the construction may have been overlooked. The incoming operator may assume that modest mitigation measures such as matting will be sufficient, but in practice such measures rarely suffice.

On a positive note, new-build schemes give the acoustician an opportunity to work with the structural engineer to design a construction that’s resistant to vibration from treadmills and free weights.

About the author

 

Martin McNulty
 

Martin McNulty is an executive acoustic engineer and leader of the vibration team at Hoare Lea Acoustics, one of the largest independent acoustic groups in the UK.

[email protected]

www.hoareleaacoustics.com



Originally published in Health Club Management 2017 issue 3

Published by Leisure Media Tel: +44 (0)1462 431385 | Contact us | About us | © Cybertrek Ltd