Exploring the Green Infrastructure Workforce

Image via the Stormwater Guidance Retrofit Manual courtesy of Philadelphia Water

Urbanization has altered the natural landscape and affected the hydrologic cycle. Where the natural hydrologic cycle maintains a balance of water circulation through evaporation, precipitation and groundwater recharge, and absorption and transpiration by plants, urbanization has resulted in an altered hydrologic cycle through construction of impervious surfaces such as buildings, roads, and parking lots. 

The water has nowhere to go except into a city's seemingly endless configuration sewer pipes, systems which are becoming increasingly overburdened and thus prone to overflows and outfalls of polluted runoff into watersheds, such as rivers, lakes and creeks during heavy rains. 

In urban areas with combined sewer systems, such as Philadelphia, Chicago and New York,  the impact is can be particularly troublesome because the discharges, known as CSOs or combined sewer overflows, often contain untreated sewage.

Green stormwater infrastructure is an incremental, ecologically centered, low impact development approach to mitigate these outfalls by reducing the amount of runoff that goes to the sewer system and by utilizing the water as a resource, via rain gardens, tree trenches, permeable paving, rain barrels, green roofs and more.

Because of its incremental approach, the implementation cost for cities is often much less than heavily engineered concrete gray infrastructure efforts. It may not be the sole solution, but it offers a plethora of benefits measured in more ways than just pollution prevention. Benefits such as awakening the urban ecosystem through tree planting and stream restoration, bringing together local communities over health and environment issues, and spawning a thriving new "green collar" workforce that offers opportunity to urban areas left buried in the ruins of the industrial age.

The NatureWORKS report by Jobs For the Future, jff.org, for example, contends that "in urban green infrastructure, there is an opportunity for entry-level jobs with the possibility for advancement. It is a win-win for cities to invest in sustainability and achieve both a healthier, greener community and a job development program."

Other efforts, such as with the Great Urban Parks Campaign, the National Recreation and Parks Association and the American Planning Association are also working to demonstrate the benefits of green infrastructure in urban communities. Their video below states that "using parks for green infrastructure is a creative and cost-effective alternative to gray infrastructure that allows nature to filter pollutants from rain water, reduce storm water issues and give communities access to more green space."




The NatureWORKS report is available for download in PDF at the following link: https://jfforg-prod-prime.s3.amazonaws.com/media/documents/NatureWORKS-Issue-Brief-032317_v3.pdf

Sensor Testing for Green Infrastructure Performance

Green infrastructure roadway swale

The term green infrastructure is used to describe a variety of landscape features or ecology related best management practices (BMPs) implemented to reduce the adverse effects of stormwater by diverting the water to rain gardens or similar systems for slow absorption by soils and plants or storage for later use.

But as green infrastructure is more widely adopted, detailed performance monitoring of a vast array of small projects (in contrast to a single larger ones with grey concrete infrastructure) is essential to ensuring the effectiveness of community-wide programs.

In Chicago they've launched a widespread initiative to test these kinds of low impact developments (LIDs) that have been implemented by the city, monitoring them with sensors to select the best solutions. Read more about this comprehensive effort in a recent report from Forester Network and Stormwater Magazine:

"As with many other cities that have combined sanitary and storm sewer systems, Chicago has a combined sewer overflow problem, with an average of more than 60 overflows a year. And,as many other cities are doing, it’s turning to green infrastructure to help solve the problem—infiltrating as much water as possible to keep runoff out of the now-undersized and overburdened sewer system during storms..." More 

http://foresternetwork.com/daily/water/stormwater/the-future-looks-smaller

Rain barrels, green roofs, permeable pavement: better ways to help manage urban stormwater runoff and reduce waste

As meteorologists monitor the El Nino condition currently gaining strength in the Pacific Ocean, Californians look with hope to the much-needed rain and snow it could yield. But if we're going to make the most of the precipitation, we need to put a LID on it.

Large bioswayle integrates stormwater runoff treatment with planting feature for neighborhood. (Photo credit: Wikipedia)

LIDs, or low-impact development technologies, mimic pre-urban stream functions. Examples are green roofs that absorb and evapotranspire rainfall; rainwater tanks attached to homes and other buildings; and permeable pavement for roads, driveways and parking lots. Rainwater could even be used in the home for toilet flushing and laundry.

These are just some of the strategies suggested by an international group of experts who recently collaborated on a review article in the American Chemical Society journal Environmental Science & Technology.

Stanley Grant, senior author of the paper and professor of civil & environmental engineering at the University of California, Irvine, brought together academics from three UC campuses (UCI, UCLA and UC San Diego) and Australia's University of Melbourne; water managers from Orange County Public Works; and engineers from consulting firm Michael Baker International to examine how urban population centers could better meet water supply needs while protecting natural stream ecosystems.

"This team offers a key example of the significant role that University of California scientists can play in finding innovative solutions for major state problems," said co-author Lisa Levin, a Distinguished Professor at Scripps Institution of Oceanography. "With drought so pervasive, California cannot afford to waste its precious stormwater; nor can it afford to send contaminants into the ocean. The options addressed in this article tackle both of these issues."

Managing stormwater runoff in urban environments is a challenge for engineers and water officials. During pre-industrial times, rainwater gradually seeped into the ground and, from there, into rivers, lakes and oceans. Humans, however, have replaced forests and grasslands with a lot of impermeable surfaces that send runoff in a torrent directly to the closest waterways. "The massive volumes and pollutants associated with stormwater runoff are a deadly one-two punch for streams and lead to a condition known as 'urban stream syndrome,'" said Asal Askarizadeh, lead author and UCI graduate student in civil & environmental engineering.

Symptoms include erosion, flooding and rising stream temperatures; an imbalance in nutrients, carbon and oxygen in the water; and an increase in unwanted sediments, chemical pollutants and human pathogens.

The antidote, Askarizadeh said, is to harvest and reuse as much of the stormwater runoff as possible and allow a portion to infiltrate into the ground to support streams and groundwater.

"Using LIDs to create this kind of localized, widely distributed approach to stormwater management will require individuals and public agencies to be open to significant change," said co-author David Feldman, professor and chair of UCI's Department of Planning, Policy & Design. "We expect the government to manage our water supply completely, and in some places, it's even illegal to harvest rainwater locally. Laws and habits are going to have to change if we are to adapt to new climate and urban realities."

One of the significant changes the authors argue for is a movement toward distributed infrastructure (rainwater tanks and green roofs) as a complement to the centralized infrastructure (aqueducts, water treatment plants and, more recently, desalination plants) cities have long relied on. "The reason is that in order to protect receiving waters and streams, we need to capture the runoff as close to where it's generated -- for example, your home -- as possible," said co-author Brett Sanders, professor and chair of the Department of Civil & Environmental Engineering at UCI.

"The question then becomes: What do you do with the stormwater once you've captured it?" said co-author Megan Rippy, a UCI postdoctoral researcher in civil & environmental engineering. "Our work provides a blueprint for estimating how much of the captured water should be infiltrated into the ground and how much should be harvested for any purpose that keeps it out of the stream, such as for nonpotable purposes in the home. The ratio of those two volumes depends on local climate and what the landscape looked like in pre-industrial times."

"The bottom line is that these solutions are good for the environment and good for people too; they just require changing habits," Grant said. "For example, over 2 million people in Australia use rainwater from their roofs to flush toilets -- and that makes good sense. Using drinking water to flush toilets is literally washing our future down the drain."

With funding from a National Science Foundation PIRE grant, he and his colleagues were able to spend time in southeastern Australia studying how people there have dealt with their historic drought. "They have had a positive experience implementing LID technologies to manage scarce water resources, and in doing so, they've provided a good example of how universities can work with governments and private-sector entities to come up with solutions to water challenges," Grant said. "And the best part is that after emerging from one of the longest droughts in Australia's history, Melbourne has been voted year after year as the most livable city in the world. We could definitely use some of their magic."

Source: University of Californa - Irvine.

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Simple Soil Mixture Reverses Toxic Stormwater Effects

Study's implications point to benefits of utilizing green stormwater infrastructure to mitigate water pollution in urban and outlying areas.

Runoff at stormwater drain. Wikipedia

PUYALLUP, Wash.—A simple column of common soil can reverse the toxic effects of urban runoff that otherwise quickly kills young coho salmon and their insect prey, according to new research by Washington State University, NOAA Fisheries and the U.S. Fish and Wildlife Service.

The affordable and remarkably effective treatment offers new promise for controlling toxic pollutants that collect on paved surfaces and wash off as stormwater into rivers, streams and the ocean. Polluted stormwater has been identified as a risk factor for many threatened and endangered salmon and steelhead and has caused die-offs of coho salmon in the Pacific Northwest.

The research builds on increasingly common building practices that promote natural infiltration of stormwater into the ground. It indicates that a “bioretention” system that first filters runoff through a basic soil mixture removes toxics lethal to aquatic life. Such systems are increasingly found in Washington State’s Puget Sound area as people build “rain gardens” that trap runoff before it gets to a creek or stream.

The research published in the journal Chemosphere examined the toxic effects of runoff collected from a major Seattle highway during storms. The untreated runoff killed all juvenile salmon exposed to it within 12 hours. But all fish survived in runoff filtered through the soil column of sand, compost and bark. The soil filtration also prevented reproductive damage to tiny insects salmon eat.

“This is a simple approach that can make a big difference in the quality of water flowing into our rivers and streams,” said Jenifer McIntyre, postdoctoral researcher at Washington State University and lead author of the new research. “In this case, the salmon and their prey are telling us how clean is clean enough.”

Researchers collected runoff from a four-lane Seattle overpass during six storms and transported it to Washington State University’s Research and Extension Center in Puyallup, south of Seattle, where the experimental soil treatment columns were set up. The 12 bioretention columns were 42 inches high and contained 60 percent sand, 15 percent compost, 15 percent shredded bark and 10 percent water treatment residuals, with half also planted with a common sedge.

Impervious surfaces and surface runoff (Photo credit: Wikipedia)

Untreated runoff regularly killed aquatic insects such as mayflies but filtering the runoff through soil columns, with or without plants, “conferred complete protection against the lethal toxicity of stormwater runoff,” the scientists wrote. The polluted stormwater also quickly killed coho salmon, but all fish survived exposure to the same runoff after treatment.

“The positive effects on survival are really striking,” said Nat Scholz, manager of the Ecotoxicology Program at NOAA Fisheries’ Northwest Fisheries Science Center and a coauthor of the research. “This is an encouraging lesson for people working to reduce stormwater impacts to salmon habitats.”

Chemical analyses showed the bioretention treatment reduced toxic metals by 30 to 99 percent, reduced polyaromatic hydrocarbons that are byproducts of fossil fuels to levels at or below detection and reduced organic matter by more than 40 percent.

The scientists suggested that further research examine different soil mixes and the reliability of bioretention treatment over time. Additional studies could also examine whether soil filtration protects salmon from more subtle forms of toxicity, including effects on early development, the endocrine system and susceptibility to disease.

The new study is part of a longer-term research effort to develop inexpensive and effective clean water technologies. The work was funded by the U.S. Environmental Protection Agency (Region 10), NOAA’s Coastal Storms Program and the Russell Family Foundation.


Source: WSU News Washington State University.

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Green Roofs: Cost-Effective Means of Preventing Sewer System Overflows

Image Credit: Columbia University

Green roofs are a cost-effective means of preventing sewage system overflows, according to new research from Columbia University.

The ability to stop overflows of course stems from the fact that green roofs retain water and thus prevent said water from simply flowing into the sewers.

As an example, the green roof on top of the Con Edison building in Long Island City, Queens (investigated by the researchers) — home to around 21,000 plants — retains roughly 30% of the rainwater (on a quarter acre) that falls on it. That’s a pretty significant amount of water.

The press release from Columbia University provides more:

If New York City’s 1 billion square feet of roofs were transformed into green roofs, it would be possible to keep more than 10 billion gallons of water a year out of the city sewer system, according to the study led by Stuart Gaffin, research scientist at Columbia’s Center for Climate Systems Research.

 New York City, like other older urban centers, has a combined sewer system that carries storm water and wastewater. The system often reaches capacity during rains and must discharge a mix of storm water and sewage into New York Harbor, the Hudson River, the East River and other waterways.

The Con Edison Green Roof was built (and research on it began) back in 2008. An adjoining “white roof” was also constructed.

Previous to these new findings, the researchers had already determined that the green and white roofs were quite effective at reducing energy costs and, also, urban air temperatures.

“The information we are collecting from Con Edison’s roofs is invaluable in helping us determine the costs and benefits of green infrastructure projects,” Gaffin stated. “Without solid data from experiments like this, it is impossible for us to know which projects are the best options for protecting the environment.”

When you take into account the cost of building and maintaining a green roof, the cost of capturing rainwater works out to about 2 cents a year to capture each gallon of water.

We’ve also reported previously that green roofs and solar panels are a great fit. Green roofs help to keep the solar panels cooler, which boosts their efficiency. For more on that, see one or all of these three stories:

Green Roofs Pave the Way to Cheap Solar Power

Green Roofs & Solar Panels: The Future of Renewable Energy?

Green Roofs Boost Solar Panel Performance


In related news, a similar “simple” solution to the management of high urban temperatures was recently put forward as a solution in Australia — white roads. While the concept of using white roads to reflect light and thereby reduce temperatures is certainly nothing new, it hasn’t yet been applied on a truly large scale, something that the Cool Change Cities Project is setting out to do.

Keep up to date with all the hottest cleantech news by subscribing to our (free) cleantech newsletter, or keep an eye on sector-specific news by getting our (also free) solar energy newsletter, electric vehicle newsletter, or wind energy newsletter.

This article was written by James Ayre via Clean Technica.

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Rain Barrels: Small Investment, Big Benefits

Rain barrel on Philadelphia sidewalk

Winter seems to be lingering quite a bit this year, yet soon enough we'll be seeing a change to spring showers and sprouting gardens. With that in mind, it's a great time to be thinking about rain barrels - their importance in helping manage stormwater and how they can help you save on your water bill.

First, a bit on stormwater.

As communities expand with development, they become increasingly built up with impermeable surfaces such as big parking lots at big box stores. The result is that rain has few places to go; it hits the hard surfaces and just runs right off into our streams. In urban areas, stormwater management has become a critical issue because of the adverse impact from combined sewer overflows on a watershed and a city's clean drinking water. A rain barrel helps limit this because it holds that first bit of rain coming off the roof or your driveway and prevents it from running into sewers and streams and causing overflow pollution and erosion from high flows of water.

In addition to helping the environment, rain barrels enable you to harvest rainwater for use with watering plants, lawns, mopping floors, or washing cars. You don't want to use rainwater from runoff to drink or to water edibles in the garden - it may contain unknown contaminants. But there are a plethora of other uses. Likewise, as you conserve water, you'll also benefit from saving on your water bill. And in Philadelphia, the water department has gone as far as to provide free rain barrels and workshops to city-dwellers.

See the short video below from the EPA to learn more about the great dollar and environmental benefits of rain barrels - a simple and effective investment to conserve water, save money, and help the environment.

For more information about rain barrels, go to http://www.epa.gov/reg3esd1/garden/rainbarrel.html. And check out Home Science on Facebook for more articles about home energy and environment: www.facebook.com/energysmarts.

 

 

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Rain Check

A pioneering outreach program empowers homeowner take on a city's stormwater troubles one house at a time.

 

Philadelphia, like most cities rests upon a vast network of underground pipes. In particular, our city has two types of sewer systems - combined and separate sewer systems - which, in total, measure 3,000 miles in length.

In areas with combined sewers, a single pipe carries both stormwater from streets, houses, and businesses as well as waste water from houses and businesses to a water treatment plant. In areas with separate sewers, one pipe carries stormwater to the city's streams while another carries wastewater to a water treatment plant.

When it rains and the amount of combined stormwater and wastewater exceeds the sewer system's capacity, the mixed stormwater and wastewater is discharged into the city's streams before it is treated - an unfortunate, but common scenario.

In the separate sewer system, stormwater is not routed to a treatment plant and is discharged directly to a stream. Pollutants picked with stormwater flow along the city's impervious surfaces and are discharged into the streams, an occurrence known as stormwater runoff.

Impervious surfaces like driveways, sidewalks, and streets prevent stormwater runoff from naturally soaking into the ground. Stormwater can pick up debris, chemicals, dirt, and other pollutants and flow into a storm sewer system or directly to a lake, stream, river, wetland, or coastal water. Anything that enters a storm sewer system is discharged untreated into the waterbodies we use for swimming, fishing and providing drinking water.

Green stormwater infrastructure includes a range of vegetation and soil systems that intercept stormwater, infiltrate a portion of it into the ground, evaporate a portion of it into the air, and in some cases release a portion of it slowly back into the sewer system.

Impervious surfaces, such as roadways and buildings, are characteristic of urbanized landscapes. As land development increases, it leads to replacement of pervious areas with impervious surfaces, causing an increase in stormwater runoff volume and combined sewer overflow episodes. In turn, this affects Philadelphia's watersheds by impairing water quality and degrading stream habitats. The Philadelphia Water Department (PWD) has established goals to protect and enhance local watersheds by managing stormwater runoff with innovative green infrastructure, maximizing economic, social, and environmental benefits for the city.

Rain Check is a program from PWD that helps residents manage stormwater and beautify their homes. Participation in Rain Check is one way Philadelphia residents can help improve local water quality and beautify their homes at the same time. Rain Check provides stormwater tools at a reduced cost to Philadelphia residents who live in the combined sewer area. These tools are landscape improvements that can beautify your home and will improve the water quality of our rivers and streams.

More on the program from the Philly Watersheds webpage:

Integrating green stormwater infrastructure into a highly developed area such as Philadelphia requires a decentralized and creative approach to planning and design. Various tools can be implemented to accomplish this, including stormwater planters, rain gardens and green roofs. All of these tools help to reduce runoff volume and filter pollutants by intercepting stormwater runoff before it enters the City's combined sewer system.

We're continuously exploring innovative ways to implement green infrastructure tools. Through our eight Land-Based Green programs, we will achieve our goals of reducing localized flooding, reducing combined sewer overflows, and improving water quality while also improving the quality of life of residents.

Contaminated water bodies are only one of many interrelated problems affected by stormwater. Stormwater volumes that exceed the sewer system's capacity can cause backups and result in street and basement flooding. Waterways and wetlands are degraded by pollutants in stormwater as natural habitats are destroyed, and biodiversity suffers. Impaired streams do not support healthy aquatic communities, do not meet uses designated by the State, do not serve as amenities to the community, and occasionally cause property damage due to flooding. When our waterways are not as healthy as they can be, we lose out on water-related recreation opportunities.

Impervious cover exacerbates the problem of stormwater when runoff flows directly into the nearest storm drain without being mitigated. If untreated before entering our waterways (including the Schuylkill and Delaware rivers, which we use as sources of drinking water), this contaminated water can have a detrimental effect on water quality.

The more impervious surfaces there are in the city, the more polluted stormwater enters the sewer system, increasing the total volume of water the city's infrastructure network must handle.The Philadelphia Water Department believes that every homeowner can make a difference in transforming Philadelphia into a green city with clean water. Rain Check gives homeowners an opportunity to reduce pollution that would otherwise end up in our creeks and rivers. For homeowners who participate in the Rain Check pilot program, PWD will help them choose a landscaping tool to manage stormwater runoff and help pay for the cost of installing the tool.

Rain Check is now in its second year as a pilot program. As part of the broader Green City, Clean Waters initiative, the services seek to help ease stormwater problems while also helping green the city. It has created awareness and shed light on such issues that were typically out of sight and mind from community stakeholders. It has also created a workforce of stormwater management specialists, which consists of a hybrid of landscape architects, environmentalists, and structural engineers in a leading-edge field for urban sustainabilty--D.A. DeMers

Mapping for Cleaner Water

A Bethlehem, PA company shows how to set a course for less polluted waters through innovative technology.
  

It takes a lot of work for cities to provide clean water for their residents. But it's one of the most important challenges we face today. Our choices on maintaining a clean water system and protecting the watershed have a deep impact on the health and productivity of our nation. The mitigation of storm-water runoff is key to this, and the EPA's MS4 initiative, short for Municipal Separate Storm Sewer System, charts the way for municipalities to implement solutions.

To help with the effort, a new Pennsylvania company called Map Decisions, which has been accepted into the state's acclaimed Ben Franklin TechVentures Incubator program, has developed an innovative GPS software program for monitoring municipal water systems and assisting with MS4's implementation. Home Science recently spoke with Map Decision's CEO, Christian Birch, a Philadelphia native, for details:

What is Map Decisions, how long have you been together, and what is it that you seek to do or do now?

Map Decisions is a company that I recently formed in the beginning of 2012. I've worked for the last 13 years as an engineering consultant primarily supporting local governments, and I saw a great need in assisting local governments in complying with regulatory requirements - in particular one program from the EPA know as the municipal separate storm sewer program (MS4). It requires municipalities to obtain a permit to operate their storm sewer systems, and there are a lot of regulations that are creating both technical and financial burdens for local governments. We are helping local governments implement the permit. Our mission is to help governments improve their efficiency through innovative solutions. Map Decisions seems to redefine the term "moving at the speed of government." For generations that meant moving at a snail's pace. There's a lot of room for improvement. We need to inject innovation and technology and bring efficiency within our government.

Let's look at this subject a slightly different way, and let's take into consideration the EPA's MS4 mandate. The city of Philadelphia recently implemented a 25 year plan for green infrastructure. And the way we're looking at it is that we don't really have the money, the tax money to pay for the infrastructure renovations that are typically needed in big cities. Revenues have shrunk. So what we're doing through some of these mandates is possibly helping us save money. Do you see the positive aspects of green infrastructure and the EPA's MS4 program? Do you see how enacting some of these measures could really benefit cities and actually save tax money - not just from a burden point of view, but from an environmental and tax saving perspective? Do you see value in that?

Yes. There's long term value there. The goals and objectives of the EPA's program are to protect water quality. All the new regulations and the new methods for protecting water quality at the end of the day will make our communities stronger, they will save tax payers money, but there is an upfront cost.

In the last decade there's been a lot of improvement in terms of best management practices. City, state, county and federal governments are all pushing to have more sustainable design practices and preserving water quality. The engineering communities are required to implement best management practices wherever possible.

And these best management practices are part of the MS4. You have the construction phase of storm-water management, and the post construction phase. Construction phase examples are sediment basins that allow sediment in runoff to settle out so that it doesn't go into streams. Another example would be a silt fence - the 18" high fabric fences around construction sites. These are the best management practices for construction phase. Post-construction examples are rain gardens or vegetative bioswales, or porous pavement.

Those would be the so called "low impact tools" that cities and municipalities are beginning to utilize? Low impact, perhaps, because they don't require the city to dig and build larger sewer systems? It takes some of the burden off the sewer system in general by implementing these types of green tools. Is that right?

Silt fence. (Photo: Wikipedia)

Yes, and encouraging infiltration wherever possible. We need to make sure that we're not exchanging water between watersheds and we need to recharge aquifers. In cities like Philadelphia, it's very costly to expand sewer systems. These low impact solutions do two things: it prevents [cities] from having to do costly upgrades to the storm-sewer network, but it also allows them to improve water quality.

Let's focus a bit more on Map Decisions. What tools do you have to offer related to this?
 
We're developing one now called MS4 Solutions. It's an information management system. There are two basic components to it. It's a cloud based information system that allows the user to log on and have control of the information management system. The very first thing we do is allow our clients to develop a storm-water management system utilizing our software.

The second side to our system is mobile software. There are two mobile utilities that are tied to our information management system. The first is a mobile inspection utility, and the second is a mobile mapping utility. Both of our mobile utilities use location intelligence to help improve efficiency of data collection and aggregation. Some of the data the EPA is asking for can be difficult to ascertain, such as weather data - when was the last rainfall event and what was the volume of rain in the field where you're inspecting. That's nearly impossible to do when you're sitting out there with [just] a clipboard. The inspectors using our software don't have to worry about that. Once they start an inspection the on-board GPS triggers the intelligence built into our system. Things like the weather data, what watershed they're in, what are the receding waters - all of these things are automatically aggregated for the user utilizing the data models behind our software.

In the near future we will be adding additional modules to our platform that will allow customers to utilize mobile inspection and mapping features for other applications, such as roadways, water and wastewater, and building inspections.

This is primarily for monitoring the existing system or for planning and decision making?

Essentially for monitoring. The EPA wants to make sure we're not contaminating our nation's water. They're trying to encourage monitoring to prevent contamination of our waterways.

Interesting stuff, thank you for your time and good luck with your efforts.

Thank you.


Editorial note: The MS4 mandate covers a wide range of public entities to comply with the EPA's requirements, including local governments, municipal authorities, departments of transportation, hospitals and universities.This information was advised by Mr. Birch in a separate interview.


For more information on Map Decisions, LLC, visit www.mapdecisions.com or email them at info@mapdecisions.com or contact by phone at 877-277-5789.

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Turning the Tide on Stormwater Overflow

ECA Program Manager Zach Popkin gives the scoop on Philly's new Rain Check residential stormwater initiative.

Most people don’t often think about sewers, rainwater, and where water goes after a flush of the loo, but the folks at the water department sure do. It’s a big problem for cities because water is a limited resource and when sewers become overburdened, it can make for a troublesome mix with drinking water, which ultimately takes energy and money to clean.

To mitigate stormwater overflow issues, cities have increasingly relied on public green infrastructure tools such as bump-outs, planters, rain gardens, green roofs, bioswales and tree trenches (such as the one pictured here in Philadelphia's Columbus Square, which can hold up to 7100 gallons of rainwater per incident).

Philadelphia, in particular, has now begun taking this approach to people's homes with a new innovative residential program called Rain Check, which involves an initiative from the Philadelphia Water Department, training and implementation from the Energy Coordinating Agency, and engagement with the city's homeowners and residents.

Thus, Home Science caught up with the ECA's Program Manager for Rain Check, Zachary Popkin, to get the word on how it's all going to work:


What's the main purpose of the Rain Check program?

Here in the city of Philadelphia, because the city is so old, we have somewhat of an antiquated sewer system. Two-thirds of the city has what we call a combined sewer system. And what that means is that the sewer pipes in our streets have a combination of stormwater from rain events combined with our waste water from our homes. And what happens is that when it rains and they reach their capacity, we have these overflows. These stormwater overflows are flowing into our waterways, and it creates pollution, it creates erosion and flooding, and basically degrades the quality of our water in terms of the cleanliness of the water as well as habitats for ecosystems, and making our waterfronts liveable and enjoyable. Through this program we hope to address the issues of both stormwater quantity and quality management and we hope to make a happier city and more friendly waterfronts.

More specifically, since this effects all Philadelphians, what sort of role can homeowners and tenants play to help? How does Rain Check allow them to participate?

The goal of Rain Check is to treat the first inch of rain from storm events on the resident's site. So we have five green tools from Rain Check. We have a downspout planter box, we have a rain garden, we have the depaving of impervious surface - so if you have asphalt or concrete we can remove that to encourage the water to naturally infiltrate back into the ground - and we have porous paving options, which is basically still hard surfaces but allows the water to penetrate into the ground. And lastly we have just your average yard tree, which helps capture stormwater but also the root systems help to filter the water.

Homeowners who are participating in the program can receive one of the tools I mentioned, plus a yard tree. So say they can get a planter and a yard tree, or they can get a rain garden and a yard tree. The way the funding works is that the homeowner will be responsible for just a small copay, and the water department will provide funding for the remaining 80-90 percent. So it's a drastically reduced cost that the homeowner will pay to get their green tool.

Since this blog is also concerned with green jobs and building a sustainable workforce, in every sense, describe the type of jobs you'll be creating and the backgrounds of people being trained for this new career field of green infrastructure.

Green tool training at the ECA

Sure. We're managing our stormwater management process similar to the same way we do our energy audit process, where we have the energy audit up front, then we have the weatherization work. At the ECA in the EnergyWorks program we do a quality assurance inspection at the end of that process. You have a three process program with the inspection, the remodeling work, and the quality assurance assessment.

With the Rain Check program we've modeled that process similarly. We've trained assessors to go out and do stormwater assessments. We're requiring that stormwater assessors have their Building Performance Institute Analyst (BPI) accreditation - that basically helps them better determine stormwater issues or opportunities as it applies to the properties and homes.

For our installers, we've trained a greater variety of installers because there's a little bit more in the variety of green tools. So the types of installers are going to be general contractors and landscapers. And we have masonry contractors for the depaving portions of the program.

Do you see this kind of work as a growth field in the future, and if so, what are the indications of that?

Absolutely. Philadelphia has become a leader in the method that it has come to address its stormwater problems. Some other cities are choosing to address the issue in the back end by increasing the capacity of pipes and at the water treatment plants. What Philadelphia is choosing to do is a little bit more innovative, by treating the problem at the source, by treating it on site. So not only are we treating the stormwater through these practices, but we're helping to beautify our city, because the planter boxes and rain gardens and trees add an aesthetic value - not only are we resolving stormwater problems but we are able to green and beautify our city through these programs.

And since Philadelphia has acted as a leader in this method for managing stormwater, we're hoping that Rain Check, and Philadelphia's stormwater program overall, which is called Green City, Clean Waters, can serve as a model for cities throughout the nation as they address their stormwater issues.

And in a cost effective way.

Exactly, particularly in Philadelphia because of the scope of our sewer system. It's prohibitive cost-wise to rehabilitate all of our sewer systems and by completely trying to address the issue of stormwater by increasing the capacity of our plants. What Philadelphia needs to do to address its type of water problems is a more comprehensive approach. While we can do some of the other things such as increasing capacity of sewer systems and treatment plants, doing things like stream restoration and public outreach, we're also going to be doing things like green infrastructure and low impact development, such as the green tools we talked about.

Sounds like a win win solution. Thanks for your time.

Thank you.


Blogger's note: The Rain Check program is in pilot phase, and currently not registering additional residents. Further opportunities to join will be forthcoming. For more on this and other programs from the Philadelphia Water Department visit www.phillywatersheds.org
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From Brownfield to Greenfield

Liberty Lands Park.

It’s hard to tell that the two acre parcel that is now Liberty Lands Park in Philadelphia was once an industrial brownfield. And it's hard to believe that the surrounding Northern Liberties community used to be one of the only neighborhoods in Philadelphia without a public green space. Liberty Lands is now a vibrant, essential part of that community, and a symbol of what resourceful neighbors can do with a few shovels, some environmental know-how, and a commitment to making their community a better place.

What is now a park, community garden, playground and state-of-the-art model for water management was once the Burk Brothers Tannery. This former brownfield or contaminated land was made safe and usable after the hazardous materials were removed by the Environmental Protection Agency in 1987.

After the pollution from the tannery was cleaned up and the contaminated materials were subtracted, biosolids, or nutrient-rich organic materials that are a bi-product from treatment of sewage at water treatment facilities, were used to improve the quality of the land. Biosolids act as a natural fertilizer, enabling the soil to retain more water and nutrients and made it possible for the growth of a community garden, an herb garden, and the more than 180 trees that the park now features.

In 1995, a development company planned to convert the land into loft apartments. When the deal fell through, the land was donated to Northern Liberties Neighborhood Association (NLNA). Since the community didn’t have a green space, neighbors envisioned and created designs for a park. In 1996, the NLNA and the project received funding from the Philadelphia Urban Resources Project.

Trail at Liberty Lands Park

Flowers in full bloom.

By the spring of 1997, with the help of other generous donations and volunteer labor, Liberty Lands was born. The park now has partnerships with Philadelphia Urban Resources Project, the Pennsylvania Horticulture Society (PHS), Philadelphia Water Department, Pennsylvania Department of Environment Protection (PA-DEP), TreeVitalize, and the Philadelphia Mural Arts Program.

More recently, the park was selected for a storm water management project. The PHS designed the project and was funded by Philadelphia Water Department/PA-DEP with the aim of easing loads on local waste water systems. Additional community support has funded the instillation of a cistern that will allow for water efficiency and conservation as water will be diverted towards irrigation.

The storm water management system establishes methods that could be utilized across the city and once again demonstrates how Liberty Lands is a model of a sustainable green space and an excellent example of grassroots community building. (See more on Philadelphia's innovative new storm-water management and green infrastructure programs at our previous posts at Home Science and Designer In Exile).

Children's garden.

Green Infrastructure landscaping.

A Few Words with Liberty Lands Park Coordinator Liz Reed.

Many people have pitched in to turn the Northern Liberties lots into a green space. Among them is park coordinator Liz Long Reed. She and her husband William Reed, co-owner of the popular restaurant, pub, and entertainment venues The Standard Tap and Johnny Brenda's, have a great history putting together fun events at the park. Recently we chatted with Liz about her related experiences:


What do you think is the single most significant function of Liberty Lands?

I think the thing that makes Liberty Lands special is that it is versatile. It's lots of things to lots of people. Even with the addition of the stage and rain garden, we purposely thought about how it would be used when there wasn't a major music or rain event going on. We want people to explore and hang out in that area.

What, if anything, has been the biggest hindrance in making Liberty Lands what it is today?

I suppose that would be lack of funds. Regardless, I think we make the most of our time and our volunteers to keep the park safe and looking its best.

What is your favorite part of the park?

That would have to be where I get to sit back and just enjoy it with my neighbors. A close second is that we own it. If we find the ways and the means to make stuff happen, we can do what we want. Like today, my husband/dedicated park volunteer went out with three extension cords and a giant drill to fix a planter that some enthusiastic bunch tipped over and broke last year. Our neighbor will meet him later in the week with his bobcat to pick the heavy top up and place it so it can be re-cemented in place. It's our park, so we can be as creative with our time and energies as we see fit. It's like a big common back yard.

Does the Northern Liberties Neighborhood Association have any new plans in store for the park or any other other green spaces in the area?

Yes to both. We hope to build a "potty shed." A neighbor designed it to house a port-a-potty on one side and a tool shed on the other. The idea is that people then can pay an annual fee to get the combo to use the toilet, and the fees cover the maintenance contract. If, for whatever reason, it doesn't work out, then we end up with one big shed.

In addition, the NLNA got a grant to green the area from 2nd Street to Delaware Avenue along Spring Garden Street. This includes planting 50 trees on April 17th. And the Philadelphia Water Department and Philadelphia Horticulture Society have started revamping the Dough-boy pocket park at 2nd and Spring Garden as we speak. It will include new storm-water amenities.


This article was posted previously on our sister site Designer In Exile.

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