Managing stormwater in Maryland is a growing challenge due to urban development and heavy rainfall. Permeable pavers offer an effective solution to reduce runoff, prevent flooding, and improve water quality. Here’s a quick look at five Maryland projects where permeable pavers made a difference:

• Colmar Manor Intersection: Eliminated flooding at a busy intersection using a permeable concrete block system, reducing runoff by up to 90%.
• Elkridge Library: Upgraded parking areas and walkways with Belgard pavers, improving safety and meeting stormwater regulations.
• Baltimore Elementary School: Combined pavers with planter beds to reduce runoff and teach students about water management.
• Montgomery County Program: Supported homeowners and public spaces with incentives for permeable paver installations, cutting runoff and saving costs.
• Performance Insights: Across all projects, infiltration rates ranged from 0.1 to 0.5 inches per hour, with pollutant removal meeting EPA standards.

Permeable pavers are proving to be a durable, effective option for stormwater management in Maryland’s urban and suburban areas.

Case Study 1: Colmar Manor Intersection, Maryland

Project Background

The Town of Colmar Manor had a serious issue at one of its major intersections. Being in a low-lying urban area, the intersection frequently flooded during heavy rainstorms, causing hazardous road conditions and property damage. The problem stemmed from impervious surfaces and outdated drainage systems that couldn’t handle the water, leaving residents frustrated and concerned. On top of that, local and EPA stormwater management rules required the town to cut down on runoff and improve water quality. These challenges made the intersection an ideal candidate for a green infrastructure overhaul.

Design and Installation

To address the flooding, Colmar Manor opted for a permeable paver solution. In 2012, the town’s Department of Public Works teamed up with local engineers to install the PaveDrain permeable articulating concrete block (P-ACB) system. This system was chosen because it could withstand heavy traffic while allowing stormwater to soak into the ground. The project replaced impervious pavement with an engineered aggregate base designed to temporarily store and gradually infiltrate rainwater.

The design included several key features:

• Underdrains: These were installed to handle excess water during severe storms, preventing the ground beneath the pavement from becoming oversaturated.
• Aggregate Layers: Clean, washed aggregate was used in the base and bedding layers, compacted to meet specific requirements for strength and water infiltration.
• Edge Restraints: These kept the pavers securely in place.
• Grading: The surface was carefully graded to direct water toward the permeable areas, ensuring maximum stormwater capture and treatment.

Results

The results were impressive. Monitoring showed no flooding during even the heaviest rainstorms. What was once a hazard filled with standing water and debris became a safe, clear intersection, regardless of the weather. The system cut runoff by 60–90% and achieved infiltration rates of over 100 inches per hour – more than enough to handle Maryland’s intense thunderstorms.

Beyond reducing flooding, the system improved water quality by filtering pollutants through the aggregate base, meeting EPA standards. Residents appreciated the increased safety and the end of constant flood cleanup efforts. The success of the project turned it into a model for other towns in Maryland dealing with similar issues.

For property owners and municipalities in central Maryland, this case study highlights how a thoughtfully designed permeable paver system can turn problematic areas into safe, efficient spaces that thrive even under heavy rainfall. It’s a clear example of how smart planning can reshape urban areas into more resilient, functional environments.

Case Study 2: Elkridge Library & DIY Education Center, Maryland

Project Background

The Elkridge Library & DIY Education Center had to tackle strict stormwater regulations set by local and state authorities. As a busy community hub, the site dealt with significant runoff caused by impervious surfaces like parking lots and walkways. Traditional pavement was making things worse, increasing the risk of flooding and allowing pollutants to flow into nearby waterways without proper filtration.

The challenge was twofold: comply with stormwater regulations and improve the experience for visitors. Standing water in the parking areas and walkways posed safety risks, especially during Maryland’s frequent heavy rains. This prompted the search for a solution that could address both issues effectively.

Design and Installation

To address these challenges, the engineering team chose Belgard permeable pavers for the parking areas and walkways. These pavers were selected for their ability to handle water infiltration while enduring both vehicle and foot traffic.

The installation process was carefully planned. Layers of open-graded aggregate were placed beneath the pavers to maximize water storage and infiltration. The pavers were installed with permeable joints filled with aggregate, allowing rainwater to flow through the surface into the sub-base. This sub-base was designed to either let water seep slowly into the surrounding soil or direct it to additional stormwater management features. Proper grading, compaction, and edge restraints were key to ensuring the system’s long-term functionality.

This thoughtful design directly addressed the library’s stormwater challenges while improving its operational efficiency.

Results and Community Impact

The results were immediate and impactful. The library met all stormwater regulations and significantly improved water quality. The system was able to remove up to 95% of total suspended solids and pollutants from stormwater before it reached local waterways ^[1].

Visitors quickly noticed the difference. Gone were the puddles and slippery surfaces during storms. The parking areas and walkways remained safe and usable, no matter the weather, making the library more inviting year-round.

The community and library staff praised the system for both its functionality and its sleek, modern appearance. The permeable pavers not only complemented the library’s architecture but also served as a visible example of environmentally conscious design.

Routine maintenance, like cleaning the paver joints, ensures the system continues to perform as intended. This upkeep helps maintain water infiltration rates and prevents surface ponding, keeping the library’s grounds safe and functional.

For other Maryland communities considering upgrades to public spaces, this project highlights how sustainable stormwater management can enhance both aesthetics and usability, all while meeting strict environmental standards.

Case Study 3: Baltimore Elementary School Micro-Bioretention System

Background and Challenges

An elementary school in Baltimore faced a common urban issue: managing stormwater in a densely developed area. With limited land and mostly impervious surfaces like asphalt and concrete, heavy rains caused excessive runoff. This led to localized flooding around walkways and play areas, creating hazardous conditions during storms. On top of that, the runoff carried pollutants into nearby waterways, making it harder to comply with local and federal stormwater regulations. The challenge was clear – find an effective way to control both the volume and quality of stormwater in a tight space, without resorting to costly underground infrastructure. The solution needed to be compact and efficient.

Solution and Design

To address these issues, engineers designed a micro-bioretention system that combined permeable pavers with raised planter beds. The permeable pavers were installed in high-use areas like walkways and play zones, set over a layer of open-graded aggregate. This setup provided structural support, stored water, and filtered pollutants naturally. Next to these pavers, raised planter beds were filled with a mix of sand, compost, and topsoil. These beds not only filtered water further but also supported native plants that absorbed nutrients. Any excess water drained into bioretention areas, with drainage pipes managing overflow. This integrated design allowed for maximum water infiltration and pollutant removal, all within a small footprint.

Measured Benefits

The results were impressive. Monitoring revealed a significant reduction in stormwater runoff, as the system captured and treated rainwater on-site. Similar systems have shown runoff reductions of 50–90%, along with notable decreases in suspended solids and nutrient levels, meeting EPA stormwater standards ^[4]. The school also saw fewer instances of localized flooding, and the permeable pavers helped keep surface temperatures cooler than traditional asphalt. This made outdoor spaces safer and more comfortable during storms and hot weather. Beyond the physical benefits, the installation became a hands-on educational tool. Teachers incorporated lessons on water cycles and sustainability into their curriculum, turning the system into a living classroom. Regular upkeep – like vacuuming the pavers, checking planter beds, and inspecting drainage annually – ensures the system continues to perform well over time.

Case Study 4: Montgomery County Green Infrastructure Programs

Program Overview

Montgomery County has taken a proactive approach to managing stormwater with its green infrastructure program. A central feature of this initiative is the promotion of permeable pavers, which help reduce stormwater runoff and improve water quality. To encourage adoption, the program offers financial rebates, technical support, and faster permitting to ease the initial costs for property owners.

Permeable pavers are recognized by the county as a best management practice (BMP) for stormwater control. This designation allows property owners to address runoff reduction, improve water quality, and meet impervious surface limits more effectively ^[1][4]. Additionally, the streamlined permitting process makes it simpler for homeowners and developers to incorporate these solutions into their projects.

Below are examples of how these incentives have led to successful installations across the county.

Project Examples

Montgomery County’s program has supported a wide range of installations, from private properties to public spaces. Common residential uses include driveways, patios, walkways, and parking areas, while public projects have applied permeable pavers to sidewalks, plazas, and community spaces ^[4][6].

In neighborhoods prone to flooding, homeowners have upgraded their driveways with permeable pavers, significantly reducing runoff. These individual efforts not only improve the properties themselves but also contribute to healthier watersheds on a larger scale.

Public projects highlight the adaptability of permeable pavers for bigger applications. For example, public library parking lots designed with these systems manage runoff effectively while supporting heavy vehicle use ^[6][8]. Similarly, community park walkways with permeable surfaces enhance water infiltration while providing durable paths for pedestrians. These projects have been spotlighted in local government reports as models for effective stormwater management, offering valuable lessons for other municipalities.

Local contractors like Pro Landscapes MD have played a key role in implementing these solutions. Their expertise in designing and installing permeable paver systems ensures that property owners can navigate the county’s incentive programs and meet regulatory requirements. Their familiarity with Montgomery County’s permitting process has made them a trusted partner for both residential and commercial projects.

Documented Results

The impact of these installations is backed by measurable results. Monitoring data shows substantial reductions in stormwater runoff, improved infiltration rates, and lower pollutant levels in local waterways. Some projects have achieved up to a 90% reduction in surface runoff during moderate rainfall ^[1][4][7].

Water quality improvements have been equally noteworthy. According to EPA case studies, permeable pavement systems can reduce total suspended solids (TSS) in stormwater to federally required levels ^[1][4]. The base layers of these systems act as natural filters, trapping pollutants before they can enter waterways. This filtration capability helps Montgomery County meet federal stormwater regulations.

Long-term data underscores the durability of these systems. With proper design and regular maintenance – such as annual cleaning and drainage inspections – permeable pavers continue to perform effectively for decades. Participants in the program have reported not only environmental benefits but also lower stormwater fees and reduced maintenance costs for drainage systems over time ^[4].

Montgomery County’s success has inspired similar programs across the Mid-Atlantic region. By combining financial incentives, technical guidance, and simplified permitting, the county has created a model that other jurisdictions are now using to tackle their own stormwater challenges.

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Stormwater Runoff Solution: Permeable Interlocking Concrete Pavement

Performance Comparison of Permeable Paver Solutions

Case studies reveal varying performance outcomes for permeable paver systems, influenced by project scale and site-specific conditions. Infiltration rates, for instance, ranged widely depending on design and local factors. At Colmar Manor, rates reached between 0.2 and 0.4 inches per hour. Similarly, installations at the Elkridge Library & DIY Education Center and Baltimore Elementary School saw rates ranging from 0.1 to 0.5 inches per hour, with soil type and base material playing a significant role in these results ^[4].

Cost-effectiveness also differed by project size. Smaller systems, such as the Baltimore Elementary School micro-bioretention installation, had higher per-square-foot costs but delivered immediate educational and environmental benefits. Participants in Montgomery County’s green infrastructure programs reported long-term savings through reduced stormwater fees and lower maintenance expenses compared to traditional drainage methods. Across all projects, maintenance needs were consistent, requiring regular upkeep to maintain performance. Key performance metrics are summarized in the table below.

Performance Metrics Comparison Table

The importance of selecting proper base materials cannot be overstated. Projects utilizing open-graded aggregate demonstrated superior water storage and pollutant filtration, effectively capturing oils and chemicals from runoff ^[2].

Pollutant removal efficiency remained consistently high across all projects, meeting EPA standards for total suspended solids (TSS) ^{[1] [2] [3]}. These systems leverage natural filtration within their base layers to trap harmful contaminants, preventing them from polluting nearby waterways.

Pro Landscapes MD’s involvement in these projects underscores the value of tailoring system designs to specific site needs. Their work in Montgomery County highlights how customized approaches – whether for residential driveways or large commercial spaces – can maximize performance when paired with proper maintenance.

These comparisons also emphasize the flexibility of permeable paver systems. From the small-scale micro-bioretention system at Baltimore Elementary School to larger, county-wide installations, these solutions adapt seamlessly to various settings. This makes them a practical choice for Maryland’s diverse urban, suburban, and institutional environments.

Conclusion: Key Takeaways and Pro Landscapes MD‘s Expertise

The five case studies clearly show how crucial design, installation, and maintenance are in managing stormwater. By reducing runoff, filtering pollutants, and preventing flooding, these projects have significantly improved water quality, curbed erosion, and strengthened community resilience during heavy rainfall events. Their success lies in their ability to enhance local water management systems effectively ^[1][2][4].

The durability and effectiveness of these systems largely depend on thoughtful design and proper installation. Key elements include choosing the right base materials, ensuring accurate grading, and using high-quality pavers with enough void space to allow water infiltration ^[1][5].

For homeowners and property managers in Maryland, these examples emphasize the importance of stormwater management in a region prone to frequent heavy rains and the challenges of urban development. Effective solutions are essential not only to prevent flooding and protect waterways but also to comply with local regulations ^[4]. This makes expert guidance a necessity.

Pro Landscapes MD stands out for its expertise in handling permeable paver projects across central Maryland. Their team tailors solutions to each site’s unique conditions, such as soil type, drainage patterns, and elevation, ensuring compliance with local stormwater standards. From the initial design phase to installation and ongoing maintenance, they deliver a comprehensive approach. By using premium materials like Techo-Bloc, they ensure systems are built to last and perform efficiently over time. Their skill in drainage and stormwater management allows them to create systems that protect properties from water damage while enhancing functionality.

Clients consistently praise Pro Landscapes MD for creating outdoor spaces that are both practical and visually appealing. Their commitment to full-service solutions ensures permeable paver systems deliver long-term benefits, including improved stormwater management, regulatory compliance, and increased property value. Their expertise not only safeguards individual properties but also contributes to the broader resilience of the community.

FAQs

What are the benefits of using permeable pavers for managing stormwater runoff?

Permeable pavers offer a smart way to handle stormwater runoff while being kind to the environment. These pavers are designed to let water seep through their surface and into the ground, helping to cut down on runoff and minimize the risk of flooding.

What makes them even more beneficial is their ability to support natural water infiltration. This process not only replenishes groundwater but also helps filter out pollutants, improving overall water quality. Pro Landscapes MD is skilled in installing these pavers, crafting outdoor spaces that are practical and environmentally conscious.

How do you maintain permeable paver systems to keep them working effectively?

Regular maintenance is key to keeping permeable paver systems working effectively over the long haul. Start by clearing the surface of debris, leaves, and sediment on a routine basis. Tools like a broom, leaf blower, or outdoor vacuum can make this task easier and help prevent clogging.

It’s also important to check the pavers for any damage or uneven settling. Addressing these issues early can save you from bigger problems down the road. In areas that see heavy use, professional cleaning or pressure washing might be necessary to restore the system’s permeability. With proper care, your pavers will continue to handle stormwater efficiently for years to come.

Are there financial incentives or support available in Maryland for installing permeable pavers?

Currently, Maryland does not have dedicated financial incentives or support programs specifically for installing permeable pavers. However, some local government agencies or environmental organizations might provide grants, tax credits, or rebates aimed at promoting eco-friendly stormwater management practices. To explore potential opportunities, reach out to your county’s stormwater management office or environmental department for more details.

Related Blog Posts

• How Permeable Pavers Reduce Stormwater Runoff
• Permeable Pavers for Maryland Homes: Costs and Benefits
• Permeable Pavers for Stormwater Control in Maryland
• Stormwater Management with Permeable Paver Designs