Equipment Sizing and Placement Strategies for Water Damage ...

Jun. 23, 2025

Equipment Sizing and Placement Strategies for Water Damage ...

Water damage restoration is a time-sensitive task that demands precision and efficiency – especially when it comes to the use of professional drying equipment. Here, we delve into the details of appropriate sizing and placement for in-place drying.

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Why Appropriate Sizing and Placement Are Important

Properly sizing water restoration equipment and placing it strategically within the affected area can significantly impact the outcome of your restoration efforts. These actions will ensure that you achieve optimum air movement, dehumidification, and temperature control, to accelerate moisture removal and achieve uniform drying.

On the flip side, improper equipment usage could result in drawn-out or uneven drying. This can affect the integrity of the job-site structure, promote mold infestation, decrease your efficiency, increase your costs and your risk of liability issues, and create a greater disruption for occupants. All of these problems can put you at a disadvantage.

What to Do Before You Select and Size Equipment

Conduct a Water Damage Inspection — Investigate the job site to identify the water source, to make a preliminary determination regarding the water category and class, and to assess the extent of damage. (Make sure you use adequate personal protection equipment.)

Determine Your Drying Goals — Identify what exactly needs to be dried. Determine optimal drying temperature and humidity levels. Decide what types of equipment will be best suited for this particular situation.

Document the Affected Area with a Digital Sketch — A high-quality floor plan app, like magicplan, is ideal for this purpose. You can use this type of ‘water restoration software’ to map the job site effortlessly, in real time, and produce a precise sketch. This enables immediate visualization of the affected area. Then, you can place annotations, equipment objects, and photos into your sketch to plan equipment usage strategically.

Create a Checklist for the Water Damage Equipment You Need to Gather — Having the right floor plan app will allow you to complete this easily. And, hey, who doesn’t like having a handy checklist? It can be a great tool for getting organized as you prepare to start your project.

Develop an Estimate for Water Damage Restoration — Guess what? If your floor plan app has a built-in estimating feature, this step will be easy as well. You’ll be able to produce and share an accurate estimate right on site, to speed up the project-approval process.

Extract Standing Water — Do so if this is deemed necessary before you bring in any necessary restoration drying equipment, such as air movers, air scrubbers, dehumidifiers, and wood-floor drying systems.

Completing all of these steps will help ensure that your restoration process operates smoothly.

How to Size Equipment Effectively

Sizing equipment requires a systematic approach – one that is based on guidelines provided by the Institute of Inspection, Cleaning and Restoration Certification (IICRC).

The IICRC S500 Standard for Professional Water Damage explains practical principles and protocols that are needed for water damage restoration projects. It will assist you in making appropriate decisions about sizing the equipment you plan to use.

By considering factors such as the affected area's square footage, the extent of moisture intrusion, and environmental conditions, you will be able to calculate the optimal equipment requirements to achieve desired drying goals. (Although, it is important to note that while the IICRC S500 provides basic principles and protocols as a foundation for knowledge, it does not cover complex water damage processes.)

How to Place Equipment Advantageously for the Best Outcomes

Strategic placement of equipment is just as crucial as choosing the right size. And, once again, your floor plan app is an ideal tool to use! It can help you make quick decisions about where to place equipment, and it can also make it easy for you to document the drying process. Here’s how to use it:

Get Started: Open your app and pull up your job-site sketch.

Visualize Your Equipment Layout: Use the sketch as a data-rich visual aid to facilitate the planning of equipment placement (including calculating distances accurately). It’s invaluable for making quick decisions about where equipment should be positioned.

Mark Where to Place Equipment: After you’ve given some thought to the layout, it’s time to develop a concrete plan. All you have to do is modify your floor plan sketch to show precisely where equipment should be placed (i.e., identify optimal locations to ensure efficient drying throughout the entire affected area). A user-friendly floor plan app will make this activity quick and easy to accomplish; you’ll be able to insert notes directly on the floor plan.

Involve Others: Share your digital equipment-placement plan with your team members and project stakeholders, to enhance transparency and facilitate communication. (Your app’s ‘reporting’ and ‘exporting’ features will make this simple to do.) This ensures that everyone is on the same page regarding your prepared strategy, to minimize the risk of misunderstandings and to ensure a collaborative and efficient restoration process.

Track Progress: While the drying process is underway, insert annotations in your sketch to record ongoing moisture readings, along with any equipment relocations, additions or removals.

Wrap It Up: When the drying process is completed, annotate your sketch again to document your results. When you’re done, you’ll have comprehensive project documentation, from start to finish. And you can share a final mitigation report with others.

Top Takeaways

When you’re hired to perform a water remediation process, equipment sizing and placement are critical determinants of success. How you perform those two tasks can make or break your project. The key is to apply smart strategies for optimizing equipment usage. This will allow you to increase efficiency, minimize costs, deliver excellent results, and ensure client satisfaction.

READ MORE:

Understanding Water Damage Categories 2 and 3

Choosing the right dryers - Professional Carwashing & Detailing

As is the case with most automated carwashes, dryers are an integral part of the in-bay automatic operation. There are many different manufacturers and styles, the most common being on-board and free standing drying systems. However, the consistent differences, no matter the manufacturer, are the housing materials and the fan types.

Choosing a dryer

There are two dryer systems that can be used for an in-bay automatic carwash: Onboard and free standing.

Onboard dryers are attached to an arch and at the end of the wash cycle the vehicle drives underneath the arch while exiting the carwash bay. Although the dryers usually have a set time limit, dictated by the controller settings, motorists usually drive slowly underneath the drying system in order to maximize the dryer capabilities.

Many carwashes display a timer showing customers how much time they have to dry their vehicle.

Free standing drying systems allow the dryer to be set up away from the wash equipment allowing for another car to begin the wash cycle as the previous car is finishing.

Another thing to consider when choosing your drying systems is which fan style to use: axial or centrifugal. Centrifugal fans are more basic than the axial fans and therefore generally cost less per fan because they cost less to build.

Want more information on Drying Equipment? Feel free to contact us.

Arthur Stephens, president of the International Drying Corporation manufactures and sells dryer systems with both fan types.

“For an in-bay automatic you can get away with a 30 or 40 horsepower centrifugal dryer system,” Stephens explains. “Although axial is a much more efficient design. It’s designed kind of along the lines of a jet engine. It creates a substantially higher amount of airflow than a centrifugal will.”

According to Stephens a 10 horsepower axial fan will create about -cubic-feet of air per fan compared to the -cubic-feet of air created by a centrifugal fan of the same horsepower.

“When you look at what someone might recommend for a 100 foot tunnel with an 80 car-an-hour line speed with a centrifugal fan they might recommend something like a 75 to 90 horsepower range. We’d recommend a 40 horsepower axial fan.”

Because of this output difference axial fans use less energy than their centrifugal counterparts. The advanced design of the axial style drying systems and high-quality level of manufacturing required because of the speed in which the fan moves; drying systems that use axial fans are often more expensive than systems that use centrifugal. Depending on which system you choose you can expect to spend anywhere from $7,000 to $25,000 on a drying system.

Your drying system needs should not be based so much on price as on the size of your in-bay automatic space. For example, International Drying Corporation offers five different drying systems depending on the size of the carwash and needs of the carwash owner. Their systems are offered with both fan types, and also different materials for the base – resin or stainless steel.

Because you will certainly be spending a pretty penny on your drying system it’s important that you keep up with all of the associated maintenance – basically, keep it clean.

Keep the inlets clean
Make sure you don’t have any obstructions due to dirt or grime buildup
If you fail to keep it clean you might obstruct your airflow and impact your output speed therefore impacting your drying quality
Most contemporary motors are enclosed and fan cooled therefore no greasing is required.

Dryer setting options

Many owners and operators in the last few years are using dryers with an air-gate system. This system allows the inlets of the dryer to be closed off so when it starts in order to reduce the load on the motor when it’s starting up. Once the motor gets up to speed you can open the gate giving you full power on the discharge.

This feature makes the start-up of that motor very low – almost like a simulated effect of using a variable frequency drive using an air-gate. Though most dryers can be programmed with VFD’s enabling carwash owners and operators to set how fast the fans are spinning and how long they run for each wash.

Fan speeds can be adjusted through the use of controllers. If you need to save some money during the slow summer months you can slow down the dryers because you might not have the long lines and wait times. Also during the summer the hot air helps dry vehicles as they are leaving the bay. That’s another reason why during the summer months it is important to set your dryer speeds according to the climate.

Dryer settings can also be configured depending on the wash option the customer chooses. If a customer chooses one of the lower tier packages you can set your dryers to run for a shorter time and slower speed. If they choose a middle tier package you can set your fans to a faster setting and longer dry time. If they choose your best package you can run your dryers at the normal speed and for a longer dry time. It is not recommended that you run your, axial or centrifugal fans at an output speed higher than the manufacturer recommends.

Recommendations

For an in-bay automatic space is always an issue. In-bay automatic owners should avoid a dryer system that is going to take up too much room. Owners should also try to avoid any dryer systems that will cause long waiting times for customers as that will severely decrease your gross profit. In-bay automatic customers demand convenience.

Many in-bay automatic owners are putting free standing drying systems outside of the bay. That way once customers have made their way through the wash the next customer in line does not have to wait for the drying cycle to complete before they can enter the bay.

Putting the dryer system outside is an efficient way to keep the line moving and allows for two cars to be using the service at once.

Putting drying systems outside also has an added benefit of catching the eye of potential customers driving by.

However if you choose to put the drying systems outside make sure you do not do so in a residential neighborhood. High speed dryers are loud and residents in the area could find the noise disturbing. Inside or outside, you should always make sure the dryer decibels always fall under the limit allowed by your local codes.

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