
The city of Houston has shown incredible resiliency in the months and years following the devastation and lasting impacts of Hurricane Harvey, which struck the Texas coast in August of 2017. The city and surrounding areas have rebounded with a fervor that can only be admired. Among elm, Giang Tran, owner of D2R Linens, whose business was totally destroyed, first by a fire, and finished off by Harvey.

D2R contacted G.A. Braun Inc. to assist with the reconstruction of the business. During the following months, Braun’s sales and project management personnel worked closely with D2R to completely redesign the layout of their building. This allowed for the reconstruction of the building to be based around the new laundry equipment layout.
Braun assisted D2R by providing detailed drawings of the utility connection points in the laundry to each contracted trade prior to construction. These accurate models allowed for exact material takeoffs and supported ownership’s need to keep the project on budget, as well as expedite the installation.

Instead of a large bank of small washers and dryers, which is how the laundry previously had operated, Braun provided three 600-pound Top Side Loader Washer Extractors. This product perfectly complimented the niche market that D2R Linens services, which requires smaller batch sizes. The washers are complemented by two 300-pound Pass-Through Dryers, two complete Precision Series Finishing Lines, and three Precision Series Small Piece Folders.
“In order to maximize our productivity, we partnered with G.A Braun, Inc. to provide us with the most reliable, innovative, and durable machines to date,” says Giang. “Of all the laundry equipment companies out there, we chose Braun because they possess the same family culture we do.”
Braun was present during every step of the reconstruction, including design drawings and installation criteria, on-site for pre-construction meetings, managing the contracted rigging team, equipment start-up, and training. Braun also interfaced with D2R’s retained architect and mechanical, electrical and process (MEP) Contractors.
D2R’s new laundry equipment allows them to accomplish in one shift what they had previously been processing in three. Furthermore, the 20,000 sq. ft. facility was designed with room for future equipment, allowing for greater than 60% growth. Offering their customers a variety of services, including same-day service, D2R Linen is poised for future business growth opportunities in Houston.

When Vantage Healthcare Linen, Erie, Pennsylvania realized the need to replace their 24 year old Braun batch tunnel washing system, dryers, and small piece folders, they looked no further than G. A. Braun, Inc.
Todd Lohr, Vantage Healthcare’s Director of Operations, was extremely satisfied with the production of their Braun equipment over the years, as well as his experience with Braun’s service and parts organizations. As a result of his experience with Braun, Todd quickly arranged to meet with the Braun team for consultation, and the opportunity to replace his existing equipment.
Braun’s design proposal and scope of work was developed under the requirements for retooling the existing laundry operation at Vantage Healthcare Linen and focused on a solution that maximized the use of the allocated facility space and provided the most efficient processing environment. All of this was accomplished while making certain these efficiencies were retained, and in some cases enhanced, as Vantage extended operations and looked to the long-term growth and sustainability of their business.
Braun’s approach to integrated project management was leveraged to maintain the project schedule in accordance with the agreed-upon objectives and set forth by Vantage Healthcare Linen. Braun coordinated the equipment delivery and freight loading plan to coincide with the rig-out of the existing equipment and the off-loading of the new equipment. Braun’s expertise in equipment rigging was key given the aggressive timeline for project execution. In addition, Braun partnered with an experienced 3rd Party MEP contractor to execute the equipment utility systems installation. The MEP Contractor was responsible for reviewing and validating the existing utility systems in the Vantage Healthcare facility to make certain all were sized accordingly to support the requirements of the new equipment. To ensure the plant did not experience lost production, work was completed during off-shift hours as well as on weekends. The Braun Project Management Team prepared and provided all the equipment specifications as well as the utility connection overlay to the MEP contractor so fabrication of raw materials to support the installation could be completed in advance to expedite the schedule. All the coordination and planning, including project meeting sessions on-site as well as via teleconference, resulted in a safe and effectively executed retool of the laundry.
The plan was continually reviewed and refined in preparation for the project execution to assure that the provided solution exceeded the level of production and quality expected by Vantage Healthcare Linen.
“Analytical details combined with concise presentation materials are critical so that the business owner can make important strategic decisions. Equally important was adherence to project activity timelines. This was essential to complete Vantage Healthcare’s laundry re-tool on-time and on budget. We also provided a complete ROI analysis which included savings of all utilities, parts and maintenance, labor, and a reduction in linen replacement costs”; stated Cliff Quick, Director of Inside Sales and Project Management, G. A. Braun, Inc.
The team at Braun developed a detailed project activity timeline in coordination with Vantage to determine the appropriate timing and activity for both the installation and training of the staff for all provided equipment. “The facility re-tool required minimal downtime with extremely tight schedules”; stated Quick.
With Vantage Healthcare growing, we know we made the right decision to partner with Braun.
The regional sales manager, service, and project management team are A-1”; stated Todd Lohr, Vantage Healthcare’s Director of Operations.
Braun’s equipment solution included a 130 lb. 16 chamber 130 lb. remanufactured Batch Tunnel Washing System, a 130 lb. remanufactured batch press extractor, 150 lb. dual cake elevating/nesting shuttle, 5-each new 300 lb. side-by-side gas system dryers, and 3 new Precision Series Small Piece Folders.
“The remanufactured tunnel looks and functions like new, as does the remanufactured press, and we were given a new machine warranty for both!
Our new Braun side-by-side dryers allowed us to add two additional dryers to our layout in the same footprint as the old system. This provided us with the capability to add more processing capacity without taking up more space, and the process is more efficient.
We selected Braun’s Precision Series Small Piece Folders because of their durability, speed, and ease of maintenance. Braun was able to put three machines where their competitors could only fit 2, and those were not capable of the production rates for healthcare items as the Braun machines are.”; added Lohr.
Braun’s ultimate goal is to complete value-adding projects on-time and on-budget, in line with the goals and expectations of our client partners through comprehensive analysis, consultation, design, and installation.
Keeping ironers optimized from a utilization and maintenance perspective is the best way to realize an ROI from a textile finishing line. As we review the science behind the ironing process, a simple model (Figure 1: Ironing Pie®) is used to depict the four major variables that dictate capability. This article will explain the science behind these components. Although brief, this description of the “Ironing Pie” is an important concept to understand. It is critical that laundry operators understand the relationship between each piece, so that they can properly establish formulas for processing linens in an efficient and cost-effective manner.
The four Ironing Pie components; temperature, moisture content, pressure and time are shown as equals only as a point of reference. Equal and balanced distribution of the four elements is not the case in a true ironing application.
IRONING TEMPERATURE
Heat inarguably has the single-most direct impact on an ironer’s ability to press fabric. Heat as a variable must be valued as the chest surface working temperature. The most common temperature range is from 325°–365°F ([162°–185°C] ideal operating range based on the heat source and the melt points of various blended materials). The most common form of ironer heat energy is steam, given that most laundry facilities already have boilers and the capacity to support the steam demands of the ironer (it should be noted that steam boilers run more efficiently when they have the proper load placed on them). Steam ironers tend to operate in the 325°–340°F (162-171°C) range, while thermal fluid heated units can operate at higher temperatures. Variations in chest temperatures during production can result in poor ironed quality with damp/wet items exiting the ironer, while prolonged exposure to extreme high temperatures can damage items.
This magnifies the importance of having a consistent moisture content in the linens as they are presented to the finishing lines. By doing so, established formulas will provide consistent quality and production output.
When establishing formula operating temperatures, it’s recommended to consult your linen provider for guidance on how to properly care for your items. Knowing the items’ maximum recommended exposure for temperature is always an important point to consider. The most common configuration is to operate the ironer as hot as possible and adjust line speed to control an item’s exposure to heat.
Once an ironer’s maximum operating temperature is established, any reduction in chest-surface temperatures will increase the time required for the items to be under pressure, resulting in slower line speeds. To offset operating at a slower line speed, other pieces of the Ironing Pie must be addressed. You can reduce the items’ moisture content by increasing your extraction times, or extraction time under pressure (depending on how the linens are washed in conventional washer/ extractors, or if they are processed in batch tunnels). Additionally, you can positively influence line speeds to address higher moisture content by adding additional rolls/surface area to your ironer.
MATERIALS MOISTURE CONTENT
Moisture Content is a key component in the Ironing Pie. It starts as a weighted comparison of a linen’s ability to retain moisture after undergoing processing through a press or washer/extractor cycle. This is achieved by weighing dry linens before being washed and again after the linens have been processed as delivered to the finishing line ready for ironing. Moisture content can then be calculated by following the formula below:

It’s recommended that items contain 30%-40% moisture content before ironing. Adhering to this guideline will help ensure a quality ironed finish, while minimizing linen damage. It’s true that a reduction in an item’s moisture content is directly related to increased processing line speed under temperature as noted above. But fully dried items should not be processed through an ironer. Attempting to achieve lower extraction percentages might not be practical as a scale of diminishing returns will occur with no value added. Every site is different and each needs to qualify its own capabilities for this measure. When a site is having issues controlling moisture content, pre-conditioning loads in a dryer is another process that operators can consider. What’s important is to develop a process of producing repeatable moisture content for items processed on the front end of the finishing line. Items exiting the ironer should maintain 2-3% moisture content, as this will allow smooth folds and preserve the life of the fibers, while reducing the creation of lint and static electricity. Items ironed fully dry without moisture retention present are prone to fiber damage, excessive accumulation of lint and the creation of high levels of static electricity. Increased front-end item moisture content will increase the amount of time required for an item to be under pressure, resulting in slower line speeds, which decreases throughput. To offset the impact of slower line speeds, increasing chest temperature and the contact area under pressure will help restore line speed. When chest temperature is operating at the highest potential for output, preconditioning select items has the potential to reduce moisture content, inversely restoring an ironing line’s capability for throughput. It should be noted that discharging items with elevated moisture content will typically result in poor fold quality, folding equipment jams and unplanned operational downtime. Also, it can present a hygienic liability as mold can grow on damp linens that are stored or packaged for shipment to the end user.
IRONING CONTACT PRESSURE
The Ironing Pie defines pressure as the location where the padded roll applies pressure onto a sheet against a deep chest simultaneously. There are two components to pressure: The first is the surface area under pressure, which is dictated by the size of the roll utilized and the number or rolls with which the ironer is configured. The other pressure variable is the applied surface physical force between an ironer roll and its respective chest surface. The first pressure variable is established at the time of equipment purchase, often within the customer bid specification, which defines specific site-configuration factors and performance throughput. Ironer OEMs are best suited to provide guidance in sizing an ironer, since each manufacturer will understand the impact and limitation regarding the contact area under pressure and how their ironer will perform. It’s debatable whether the use of this term might have been over-marketed. Simply put, an operator should look at the size of the ironing surface as a linear value and not the accumulative total area of square inches/centimeters. It’s necessary to understand that the impact of the contact area under pressure is fixed to the number and size of rolls utilized. It is not recommended to leverage this value as the single qualifier for ironer performance, or to justify the purchase of similar-sized two- or three-roll ironers. Many additional factors require consideration (e.g., chest type, construction, design, number of rolls and size of rolls all need to be part of the selection process). Make sure to use all factored inputs to correctly define ironing needs. A good up-front purchasing decision establishes a flatwork line return on investment for years to come.
IRONING DURATION OF TIME
The Ironing Pie defines time as three different variables. The duration of time for each variable is site-specific and all are impacted by the factors identified in the Ironing Pie. They include:
- Start Up Time
- Production Time Under Pressure
- Cool Down Time
Key input factors specific to ironer time are desired operating temperature, items processed, moisture content and contact pressures.
START UP TIME is the duration of time required to raise the temperature of the ironer from its current static or ambient temperature up to “hot” wax-ready operating temperature. This segment of time is directly dependent on the type of ironer, specifically its heat source with respect to starting chest temperatures. During this time most laundries will execute a wax procedure and will replace any missing guide ribbons so that when complete, the ironer is production ready.
PRODUCTION TIME UNDER PRESSURE is the segment of time when the ironer is hot at operational temperature and available to run flatwork production. This is when equipment utilization becomes a measurable, and where an ROI can be verified while looking for opportunities for improvement. A good approach is to tune the ironer line speed for sustainable site operations that is item-specific for predictable, repeatable results. During the utilization review, note all identified shortcomings. Some can be resolved as tuning opportunities, while others may be fixed constraints requiring a more complex series of solutions. A good objective should be to keep the ironer chest covered with items and processing with minimal gaps. Items should exit the ironer with 2%-3% moisture retention to prevent static electricity, producing a quality ironed, wrinkle-free appearance. Avoid attempting to configure line speeds to operate beyond the slowest piece of equipment or at full boiler capacity. Some cushion is required to absorb momentary changes in the plant- operating environment. Time under pressure is the amount of time that the ironer roll is pressing items into a hot chest. This value has a direct relationship to the amount of fixed contact area under pressure. The longer this linear contact pressure distance is, the less time under pressure is required to iron. Other factors that can impact time under pressure are fabrics. For example, 100% cotton will require more time under pressure than a cotton/poly blend or microfiber.
COOL DOWN TIME is the time period to lower the temperature of the ironer from operating speeds down to cooler “touch- safe” temperatures. It’s obvious that cool down times will be affected by operating temperature and the type of medium used to heat the ironer, as well as the size of the ironer itself. Even if your daily operations never fully shut down laundry boilers, it’s important to qualify the time required to cool the system for servicing the unit and restarting. Certain preventive maintenance (PM) and servicing activities should not be attempted on a hot ironer (e.g., replacing spring press, padding rolls, servicing traps/gaskets/ flanges).
The science of ironing has changed very little over the years. Rather, it is the application of technology, equipment de- signs, the heat sources used and configurations of deep chest ironers that have evolved to support the demands of the market/industry. In today’s modern laundries, the capability of the ironer is typically what dictates the production capacity of the processing line.
AUTHOR’S NOTE: “Ironing Pie®” is a registered trademark of G.A. Braun Inc
Reducing Downtime in Industrial Laundries: The Power of Proactive Maintenance
Minimizing equipment downtime is essential for maximizing productivity and extending the life of your industrial laundry equipment. A well-executed proactive maintenance (PM) program is the most effective way to prevent unexpected breakdowns, reduce repair costs, and support long-term operational efficiency.
What Makes a Strong Proactive Maintenance Plan?
An effective PM program should be tailored to your facility’s unique operational needs and include the following elements:
- Skilled employee training and onboarding
- Clear site housekeeping procedures
- Engineering team training and documentation
- Task-based risk assessments
- Access to external support resources
- Verified local contractor and OEM contacts
- Comprehensive preventive maintenance schedules
- Operational cost and trend tracking tools
- Contingency plans for operational disruptions
The Role of Engineering in Reducing Downtime
A successful PM strategy starts with the chief engineer, who defines the long-term maintenance plan, sets the budget, and ensures resources are aligned. Plant engineers manage the day-to-day execution, coordinating closely with production teams to support equipment health and minimize downtime.
Even with proactive plans in place, equipment issues can still arise. That’s why it’s critical to have a well-documented contingency plan and reliable service contacts on hand—whether for in-house fixes or external repair support.
Building an Equipment Wellness Program
Modern wellness programs use maintenance software to streamline PM tracking and automate work order management. These systems evolve with the needs of the facility and centralize all maintenance data in one easy-to-access location.
Key elements of a wellness program include:
- OEM maintenance manuals outlining service intervals and components
- On-site inventory of essential spare parts for quick repairs
- Daily, weekly, and monthly PM schedules
- Hours-of-operation-based service milestones
If you’re unsure of what parts to keep on hand, most manufacturers can provide a recommended spare parts list tailored to your equipment.
Technology and Diagnostics Improve Equipment Longevity
Today’s commercial laundry machines are equipped with advanced touchscreen controls and intuitive diagnostic tools. These platforms (PLC or PC-based) simplify troubleshooting and provide clear performance insights—eliminating guesswork and enhancing operator confidence.
Many OEMs also offer remote diagnostics, wellness contracts, and technical support services to help supplement your internal maintenance team and reduce long-term costs.
Benefits of a Proactive Maintenance and Wellness Program
- Extended machine life
- Reduced unplanned downtime
- Improved system diagnostics and planning
- Consistent software updates and control upgrades
- Better team skill development and retraining opportunities
By identifying small issues early, a PM program prevents minor problems from turning into major, costly failures.
Operator Training: The Foundation of Equipment Reliability
Proactive maintenance is most effective when paired with comprehensive training. Initial and ongoing training sessions help operators, engineers, and supervisors:
- Understand machine functionality
- Master control interfaces and diagnostic tools
- Improve productivity through proper machine usage
Training also strengthens the relationship between the laundry facility and the equipment manufacturer, ensuring continued support and education.
Final Thoughts: Be Proactive, Not Reactive
Investing in proactive maintenance and training reduces long-term costs, protects equipment, and ensures consistent production. Whether you’re maintaining current operations or preparing for future growth, a robust wellness and PM plan is key to reducing downtime and maximizing ROI.
Looking to optimize your facility’s maintenance strategy? Contact GA Braun for expert guidance, wellness programs, and service support tailored to your laundry operation.
(l/r) Metro Laundry’s Chief Engineer Mark Proctor; COO Steven Young; and Plant Manager David Slawson stand by the plant’s upgraded sheet feeder.
Hospitality laundry operators have struggled since the COVID-19 pandemic hit in March and slowed hotel bookings to a crawl. But many have seized the opportunity of a slowdown to prepare for a time when their prospects improve. Metro Laundry Service, a Washington, DC-area hotel launderer, recently collaborated with G.A. Braun Inc. on an upgrade of three sheet feeders aimed at doing just that.
Before COVID-19, Metro Laundry was growing rapidly. A second, 52,000-square-foot plant opened in 2018 with great fanfare as the business expanded. When the pandemic hit, business plummeted by as much as 95%, said COO Steven Young. The second plant, dubbed “MLS 2” was shuttered by early April. Operations were consolidated at the company’s original 24,000-square-foot plant in Capitol Heights. Among other down-time projects, discus-sions among the Metro managers and its executive team centered on making improvements to three Braun sheet feeders. The supplier company, based in Syracuse, NY, seized the opportunity to fine-tune its equipment. During the week of Sept. 28, it installed a newly upgraded feeder to replace one that Metro had. Young and his team are delighted with the revamped feeder and look for-ward to having the same upgrades applied to two other feeders. “Braun is a very valued partner of ours,” Young said. “They were part of the opening of that MLS 2 plant, and they wanted to be a part of helping MLS survive COVID and revitalizing the original plant. We’re very thankful to them for that.”
Mark Kirby, Braun’s director of finishing equipment technology, returned the compliment, thanking Metro for its collaborative input as a win-win for the company and its supplier. “Braun partnered with Metro Laundry to help define action items during the planning and development of Braun’s next generation of the Precision Series® Spreader/Feeder,” Kirby said. “Feedback and observations from Metro were well received by our engineering team. This collaboration produced positive results for all involved in the spreader/feeder upgrade.”
Braun’s team of engineers arrived at Metro on Sept. 27 to install the new feeder. The upgraded machine includes fault detection and the company’s patented spread-detection device, re-engineered spread clamps and more.
The Braun tech experts stayed at Metro through Sept. 30. Young said his team was pleased to have them explain the up-graded machine and provide on-site training in other areas. This was particularly helpful because as part of the consolidation of the two plants, older equipment at MLS 1 was phased out in favor of newer equipment moved from MLS 2, Young said. Most of the executive and engineering staff at MLS 1 had limited knowledge of the equipment from the other plant. The feeder installation gave them an opportunity to learn. “During that time that they were here, a stretch of about four days, was an opportunity for our maintenance and mechanics and engineering teams to pick their brains and learn as much about the equipment as possible,” Young said. Now as hotel business begins to pick up, fueled by Washington, DC-area events such as the recent Prayer and Black Lives Matter marches, Young is feeling optimistic that Metro will weather the storm of COVID-19 with a revitalized plant and staff. “We took this situation and tried to turn a negative into a positive and say, ‘Hey, let’s just use this as an opportunity to revitalize the plant,’” he said. “Revitalize it from an equipment standpoint and from a staffing standpoint.
Now we have more maintenance coverage and management than we had before, which has taken some pressure off all of us, so to speak. It allows us to operate better. There’s still a lot of challenges. We’re adjusting as we go along.”
‘YOU’VE GOT TO BE INNOVATIVE’— Q&A with J.B. WERNER
G.A. Braun CEO describes coping with COVID, recruitment/retention challenges and more
By Jack Morgan
In recognition of the 75th anniversary of G.A. Braun Inc., Syracuse, NY, Textile Services recently clicked into a Zoom interview with J.B. Werner, Braun CEO and board chairman. Our discussion ranged over the impact of COVID-19, market trends, regulatory hurdles, overseas expansion and more. Excerpts—edited and condensed for clarity—follow.
Fourth-generation CEO J.B. Werner, photographed in his office at the G.A. Braun manufacturing plant in Syracuse, NY., is enjoying the company’s 75th anniversary. Innovation is the key to its future, he says.
We hear that a lot of your customer base have deferred on machinery purchases or any capital expenditures due to the uncertainty of the pandemic. With various states opening up, is that likely to change in the second half of ’21?
We’re going to see some pickup on the uniform side, but they’re almost back to where they were pre-COVID. The hospital side’s still down but improving. Obviously, the linen in hospitality is down. I think we’ll see a pickup in hospitality, but more toward the resorts because people can’t wait to go out on vacation. The hotels that cater to business travelers, I think that’s going to go down. Businesses are going to do more Zoom meetings and not traveling as much compared to pre-Covid levels.
Any improvements planned for your manufacturing facility?
We opened the first building 2009 and then we put in the addition and doubled it in 2015. We’ve continued to invest in capital equipment in the factory for fabrication and those types of things. We could expand if we wanted to. We’ve got land to do that. We have no plans to do so at this time.
With no Clean Show this year, how have you changed your approach to marketing your equipment and systems?
It gives us an opportunity. Every two years it’s difficult to come up with new equipment…We’ve got a lot of new product development going on, which if we had the show this year, we wouldn’t be able to show as many new products. By the next clean show, we’ll have a number of new products that we will showcase.
You’ve said people at Braun are happy to be working there. Has that made recruitment/retention better? Have you seen less turnover, or is it any easier when you need to hire an engineer?
At times recruitment can be challenging but we are active with local vocational schools and universities in the area. We provide tours, explain what we do and provide an overview of the industry. We’ve found this approach to be extremely beneficial.
Are you sending sales reps out? I’ve heard with some companies, it’s all phone or “Zoom calls.”
Yes, our sales representatives are all traveling. No question.
How about your pursuit of overseas markets? Has that been affected by COVID particularly?
Yes. Especially the Far East. I think they’re still pretty closed down. We’re seeing some activity in Korea. Central and South America, and we continue to be very active in those areas.
How about supply chain? Have you had issues getting parts?
No. Because all of our suppliers are U.S. based it was rare if we ran into an issue and have had little disruption.
Your factory is ISO certified. Does that give your sales reps any competitive advantage when they’re pitching your equipment?
- Definitely, ISO practices contribute to making the development, manufacturing, and supply of products and services more efficient and safe. I’m not sure who is even ISO certified here in the states. I don’t think there are any ISO-certified laundry equipment manufacturers.
When you do your proposals, do they put that into the proposal? Do they ask about ISO certification when you’re bidding it now?
Some do. More of the government RFPs (request for proposals) will have that.
Is government contracting a significant part of your business?
We do a lot of VA (Veterans Administration) business. We always have. That’s always been a strong point of our company. Yes. A lot of the RFPs have what’s called a “Made in America” clause, not all of them, but many do. With the current administration’s push to “Buy American” I believe we will see more of this.
How do you feel about making it to 75 years in this highly competitive business?
We’re very excited about it. We’re very proud to have 75 years in this business. There are not many companies that can say that. Having four generations basically, if you start back from the Prosperity Company, the chemical company (see related story on pg. 40), I’m the fourth generation in the laundry business. The third generation in the company for Braun.
Looking past COVID, what would you say is the biggest challenge that Braun is facing in the next 15-20 years?
You’ve got to be innovative. You got to keep coming up with new products. If you don’t, the market will pass you by. That’s where we focus. Every year, we get together, gather industry input as to what needs are out there and what they would like to see. Then we talk about different products that we should consider building, and make plans accordingly, depending on which ones we decide we’re going to go ahead with. We’ve several brand-new products coming out between now and the Clean Show (July 30-Aug. 2, 2022, Atlanta) and we are looking forward to showcasing them.
Case Study: Clean Uniforms and More! Modernizes New Bedford Facility with Braun Equipment

Case Study: Clean Uniforms and More! Modernizes New Bedford Facility with Braun Equipment
For over a century, Clean Uniforms and More! has delivered top-tier uniform and textile services throughout the Northeast. With more than 100 years in operation, their continued success is a testament to a company culture built on quality, reliability, and continuous improvement.
When it came time to upgrade their aging wash alley at the New Bedford, MA facility, Clean Uniforms once again turned to GA Braun—reaffirming a partnership that began nearly 24 years earlier. The original Braun open pocket wash alley, still operating daily with over 30,000 hours on some machines, was a testament to both Braun’s equipment durability and Clean Uniforms’ commitment to preventive maintenance.
The Project: Wash Alley Modernization and Capacity Expansion
Clean Uniforms and More! President Mark Bodzioch, with support from Braun’s Northeast Regional Sales Manager CJ Spencer, selected Braun for the retool and modernization of their wash alley. “While others may offer similar designs, no one matches Braun’s proven track record of safety, efficiency, cost-effectiveness, and equipment longevity,” said Spencer.
Phased Implementation for Zero Downtime
Because Clean Uniforms needed to remain fully operational throughout the upgrade, the retool project was divided into carefully planned phases. Braun worked collaboratively with the Clean Uniforms team over a five-year period to:
- Design the upgraded wash alley and scope of work
- Develop a detailed work breakdown schedule
- Coordinate equipment delivery, rigging, and installation
- Integrate staff training for seamless operational transition
Braun’s integrated project management ensured that all installation phases aligned with Clean Uniforms’ production schedules. The company coordinated equipment rig-out, freight logistics, and closely partnered with third-party MEP contractors for utility installation.
New Equipment Installation: Boosting Safety and Efficiency
In the first phase, Clean Uniforms’ existing Braun dryers were replaced with high-performance Braun 500PT dryers. The second phase focused on washer and shuttle system upgrades, as well as replacing the soiled rail system to further improve efficiency and safety.
Braun replaced the older 400 series open pocket washers with the space-saving N2 design—allowing the addition of a new washer within the same footprint. The new washers were integrated with a chute-load rail system, eliminating the need for manual loading inside the wash alley. This enhancement drastically improved safety and automation.
Braun’s versatile chute load design worked seamlessly with Clean Uniforms’ preferred rail provider, showcasing Braun’s flexibility and commitment to tailored integration.
Results: Improved Throughput, Safety, and Labor Efficiency
“In several phases, Braun was able to replace the dryers, washers, shuttle, and upgraded discharge conveyors—all while keeping Clean Uniforms and More! running with only minor weekend interruptions,” said President Mark Bodzioch.
Key Outcomes:
- Labor requirements reduced
- Production increased by 3 loads per hour
- Enhanced operator safety with chute load system
“Our goal is always to complete projects safely, on time, and within budget,” added Cliff Quick, Director of Inside Sales and Project Management at GA Braun. “We pride ourselves on executing based on our clients’ goals through detailed consultation, design, and installation.”
Is Your Facility Ready for a Retool?
Whether upgrading aged equipment or preparing for future capacity, Braun delivers high-efficiency laundry solutions customized to your operational needs. Contact us today to learn more about modernizing your laundry facility.
Optimización de procesos para secadores nuevos y existentes
Maximizar el rendimiento y la eficiencia energética de las secadoras es fundamental para las lavanderías industriales. Aunque el sector se ha beneficiado de unos precios de la energía relativamente bajos en los últimos años, la optimización del proceso de secado sigue siendo esencial por tres razones fundamentales:
- Tendencias del mercado: El secado completo de la ropa blanca es cada vez más habitual en los principales segmentos del mercado: sanidad (80%), hostelería (55%) y alimentación y bebidas (40%). Se espera que esta tendencia continúe a medida que ganen popularidad los tejidos sintéticos, que requieren condiciones de secado específicas para mantener su integridad.
- Evolución del tejido: Los sintéticos retienen menos agua tras la extracción, lo que reduce el consumo de energía y los tiempos de secado. Sin embargo, son muy sensibles al calor, y un secado inadecuado puede acortar considerablemente el ciclo de vida de la ropa.
- A prueba de futuro: Incluso con costes energéticos bajos, la optimización de los procesos de secado ayuda a las instalaciones a seguir siendo rentables y a estar mejor preparadas para posibles fluctuaciones del precio de la energía.
Consideraciones mecánicas clave
Para optimizar el rendimiento de los secadores, los operadores deben abordar en primer lugar los factores mecánicos externos, ya sea modernizando los equipos existentes o instalando secadores nuevos.
1. Conductos adecuados para el escape y la admisión
Los conductos mal dimensionados o instalados son una de las principales causas de ineficacia de las secadoras y de un mayor consumo de energía. Un flujo de aire deficiente también puede dañar la ropa blanca y crear condiciones de funcionamiento inseguras. Una simple prueba de manómetro puede evaluar la presión de escape:
- Ideal: 0,5 pulgadas de columna de agua o menos
- Crítico: Más de 1,5 pulgadas (debe detenerse el funcionamiento y corregirse el flujo de aire)
Las entradas de aire fresco también desempeñan un papel fundamental. Las instalaciones que sellan las puertas de los garajes en los meses más fríos pueden notar el cierre automático de las puertas debido a la presión negativa. La introducción de aire exterior puede ayudar a regular la humedad, mejorando la eficacia del secado.
2. Dimensionamiento adecuado del gas
Las secadoras más antiguas pueden funcionar a una presión de gas inferior a la óptima debido a diseños obsoletos, lo que provoca un rendimiento ineficaz. Asegúrese de que las secadoras reciben la presión de gas correcta consultando el manual del propietario o la placa de características del equipo y, a continuación, colabore con los fabricantes y contratistas para confirmar el volumen de gas adecuado.
Factores clave del rendimiento de las secadoras
Más allá de los elementos mecánicos externos, la optimización de un secador existente requiere prestar atención a los componentes internos que afectan directamente a los tiempos de secado y al consumo de energía.
1. Minimizar la infusión de aire ambiente
Las fugas en las juntas de las puertas, las cestas de las secadoras mal diseñadas o las tolerancias de fabricación deficientes permiten la entrada de aire ambiente en la cámara de secado, lo que interrumpe el proceso de secado. Las secadoras modernas cuentan con puertas herméticas y juntas colocadas con precisión para garantizar que el aire pase a través de la cámara de combustión antes de llegar a la ropa blanca.
2. Mejoras en la ingeniería del flujo de aire
Los antiguos diseños de secadores se basaban en estimaciones manuales de ingeniería en lugar de en análisis científicos del flujo de aire. Los secadores actuales utilizan la dinámica de fluidos computacional (CFD) para optimizar el flujo de aire, lo que reduce los tiempos de secado y el consumo de energía.
3. Mantenimiento de sopladores y filtros de combustión
En las secadoras más antiguas (más de 10 años), los filtros obstruidos pueden provocar mezclas de gas-aire deficientes, llamas ineficaces e incluso incendios en la secadora. Muchas secadoras modernas eliminan este filtro, reduciendo las necesidades de mantenimiento.
4. Comprobación y sustitución de juntas
Todas las secadoras utilizan juntas que se desgastan con el tiempo. Los modelos más nuevos incorporan juntas más duraderas y fáciles de sustituir, lo que reduce las fugas de aire y mejora la eficiencia.
5. Mantenga las ruedas del soplador equilibradas y limpias
Las ruedas del soplador facilitan el flujo de aire. Con el tiempo, la pelusa, la suciedad y los pernos sueltos pueden causar desequilibrio, reduciendo la eficiencia y aumentando el desgaste de los componentes. La limpieza periódica y el mantenimiento de las correas evitan la pérdida de rendimiento. Algunos diseños más recientes utilizan ruedas que eliminan la pelusa para reducir la acumulación de residuos.
6. Supervisar la limpieza del cilindro secador
Los revestimientos como el teflón o la cerámica ayudan a mantener limpios los cilindros secadores, pero se desgastan con el tiempo. Evite el calor excesivo o los métodos de limpieza abrasivos para prolongar su vida útil. Los nuevos sistemas de eliminación de partículas en seco proporcionan una limpieza rápida y eficaz de los cilindros sin dañarlos.
7. Mantenimiento de los sistemas de recogida de pelusa
Las secadoras más antiguas utilizaban principalmente la recogida de pelusas para el cumplimiento de la calidad del aire. Hoy en día, los sistemas de pelusa integrados son cruciales para un flujo de aire y un rendimiento adecuados, protegiendo las ruedas del soplador y manteniendo la eficiencia de la secadora.
Optimización del rendimiento y los controles del quemador
Aunque el caudal de aire es un factor dominante, la eficiencia del quemador, los sistemas de control y las prácticas de funcionamiento adecuadas también influyen en el rendimiento del secador.
1. Salud del quemador: Azul es mejor
- Bien: Una llama azul indica una combustión correcta.
- Malo: Una llama amarilla sugiere una pelusa obstruida, una relación combustible-aire incorrecta o la necesidad de ajustar el quemador.
2. Tecnología de control avanzada
Las secadoras modernas ajustan la aplicación de calor en función de los niveles de humedad del lino, minimizando los daños y el encogimiento del tejido. Este control de precisión garantiza que los tejidos reciban la menor cantidad de calor necesaria, lo que mejora su longevidad.
3. Prácticas adecuadas de carga
Cargar una secadora hasta su capacidad declarada afecta significativamente a la eficiencia. Debido a las diferentes densidades del tejido, los operadores deben ajustar con precisión los pesos de carga de las diferentes clasificaciones para maximizar el rendimiento.
Reflexiones finales
La eficiencia del secado es una ciencia que requiere una cuidadosa atención al flujo de aire, el estado mecánico, el rendimiento del quemador y la gestión de la carga. Las lavanderías industriales deben colaborar estrechamente con los fabricantes de equipos para aplicar las mejores prácticas y garantizar la fiabilidad y eficiencia de las secadoras a largo plazo.
¿Necesita asesoramiento experto para optimizar sus secadoras? Póngase en contacto con GA Braun para obtener soluciones a medida que maximicen el rendimiento y reduzcan los costes operativos.
Maximizing production throughput in an industrial laundry operation requires a proactive approach. Too often, operators focus on where a problem manifests rather than identifying upstream inefficiencies that create bottlenecks. Addressing these root causes can significantly enhance productivity, efficiency, and cost savings.
Washroom Challenges and Solutions
1. Soil Sorting and Load Management
The foundation of an efficient washroom begins with proper soil sorting. When materials aren’t staged correctly, it leads to underloaded machines, unpaired batches in tunnel washers, or empty pockets. These inefficiencies reduce capacity and disrupt downstream operations.
Prevention:
- Implement disciplined sorting practices to ensure full and balanced loads.
- Train staff on proper staging techniques to maximize equipment utilization.
2. Formula Management and Cycle Optimization
In conventional washing, modern machines offer significant flexibility to optimize both the wash and extraction processes. However, many operators don’t fully utilize these capabilities. On the tunnel washing side, there’s a common misconception that running shorter cycles (e.g., 90 seconds) increases throughput. In reality, optimal extraction requires sufficient high-pressure time—typically 60–75 seconds—to achieve the best water removal and efficiency.
Prevention:
- Work with OEMs to understand the full potential of your equipment’s extraction settings.
- Adjust cycle times to optimize drying efficiency and reduce conditioning needs.
3. Material Handling Delays
Many facilities struggle to keep up with unloading dryers and conveyors, leading to avoidable slowdowns. Often, this is a matter of operational discipline rather than a lack of capacity.
Prevention:
- Implement clear unloading procedures and accountability measures.
- Regularly evaluate workflow efficiency to identify and address bottlenecks.
Finishing Line Inefficiencies
1. Ironer Line Speeds and Boiler Capacity
Insufficient ironing line capacity can result from inadequate ironer size, insufficient surface contact pressure, or excessive moisture content in bypassed items.
Prevention:
- Ensure your ironers and boilers are adequately sized for your throughput.
- Optimize wash formulas to minimize unnecessary conditioning before ironing.
2. Manual Material Handling Bottlenecks
The finishing end of the process is labor-intensive, and inefficiencies in material handling can create costly slowdowns. Automation can provide substantial benefits but must be integrated thoughtfully to avoid introducing new bottlenecks.
Prevention:
- Evaluate automation options to streamline labor-intensive processes.
- Design automation solutions that align with your facility’s workflow and capacity.
3. Equipment Versatility and Product Mix Alignment
Many plants rely on specialized machines that can only process specific product types. Once those items are finished, the equipment sits idle, creating inefficiencies in labor, energy, and overall capacity.
Prevention:
- Invest in equipment that offers flexibility to handle a variety of product types.
- Continuously reassess your product mix and adjust processing strategies accordingly.
Reflexiones finales
While every laundry operation has its unique challenges, these common problem areas often present the greatest opportunities for improvement. By focusing on upstream efficiencies, proper load management, optimized formulas, and effective material handling, facilities can significantly enhance throughput without unnecessary capital investment.
Taking a strategic approach to these operational areas will not only improve production flow but also reduce costs, save energy, and enhance overall efficiency. Looking for expert guidance? Consult with GA Braun to optimize your industrial laundry operations today.
Whether you’re designing a new laundry facility, renovating an existing plant, expanding operations, or installing new equipment, it’s crucial to approach layout and infrastructure planning strategically. A well-designed plant layout ensures smooth process flow, supports utility efficiency, and prepares your business for future growth.
Why Layout Planning Matters
In an ideal scenario, a new facility would begin as a blank slate. Architects and engineers would collaborate with the laundry operator to design a production environment optimized for current needs and long-term expansion. Unfortunately, most laundry projects fall into the categories of renovation or expansion—making them more complex due to the need to maintain ongoing operations during implementation.
At GA Braun, we understand these challenges and partner with clients to implement efficient, safe, and cost-effective equipment installation strategies. Our team helps design layouts that maintain production continuity while supporting strategic business objectives.
Common Challenges in Existing Facilities
Many healthcare, commercial, and industrial laundry operations function in older buildings with limited space and outdated layouts. Expansion often takes the form of patchwork additions, resulting in inefficient workflows and restricted equipment capacity.
We often find tunnel washers installed in building corners with no room for growth. These “jigsaw puzzle” layouts may solve short-term issues but can hinder long-term success. That’s why our approach emphasizes comprehensive design planning that includes:
- Space allocation for future equipment
- Optimal process flow
- Equipment flexibility
- Minimizing the need for future structural changes
Braun includes placeholders for future machines in layout renderings, helping clients visualize and prepare for scalable growth.
Key Design Considerations
Whether building new or renovating, every layout should support both current and future operations. Key planning elements include:
- Process Flow Optimization: Equipment should be arranged to minimize manual handling and support efficient material movement.
- Ceiling Height & AFF Clearance: Sufficient clearance is essential for monorail systems and overhead equipment.
- Utility Infrastructure: Design must support current equipment needs and future expansion in electrical, water, steam, and gas systems.
- Support Areas: Include dedicated spaces for chemical storage, linen storage, loading docks, office space, maintenance, employee facilities, and parking.
- Truck Access & Logistics: Ensure routes accommodate large transport and delivery vehicles.
Clients often approach us wanting to add equipment to boost production, but equipment alone may not solve underlying workflow issues. That’s why we begin by analyzing material flow, production metrics, and equipment interaction—often unlocking higher throughput without additional equipment.
Automation for Space and Labor Efficiency
Automation is key to improving efficiency and reducing labor costs in today’s competitive market. Braun has partnered with third-party rail providers for decades to implement automated solutions including:
- Monorail systems for tunnel and conventional washers
- Conveyors to reduce cart usage and manual handling
We’ve recently advanced this innovation with our patent-pending chute-loaded tunnel system dryer. This breakthrough allows automatic rail loading directly into the dryer via a static chute, reducing maintenance and mechanical complexity.
Benefits of chute-loaded dryers:
- Increased layout flexibility
- Reduced motion hazards
- Storage queue before dryers to eliminate scheduling delays
- Industry’s first true side-by-side dryer configuration, saving floor space
Strategic Planning and ROI
Successful laundry design is data-driven. Braun uses tracking tools and analytics to deliver turnkey projects that align with production goals and financial targets.
For example, in a recent healthcare laundry redesign, we proposed a strategic facility upgrade that improved production efficiency, reduced labor and utility costs, and modernized equipment. Here’s the return on investment breakdown:
- Estimated Project Cost: $898,032
- Annual Electrical Savings: $21,000
- BTW Maintenance Savings: $65,000
- Dryer Gas Savings: $10,819
- Ironer Gas Savings: $17,646
- Labor Savings: $279,864
- Total Annual Savings: $349,329
- ROI: 2.28 years
These results show how strategic facility planning and process optimization can deliver immediate and long-term value.
Why Partner with GA Braun
Braun has extensive experience in laundry plant renovations, new facility construction, automation integration, and high-efficiency equipment upgrades. Our project managers collaborate with your internal team, architects, contractors, and engineers to deliver scalable, cost-effective solutions—from concept to completion.
Let GA Braun help design your laundry operation for long-term growth, operational efficiency, and maximum ROI.