The Green Infrastructure Committee of Jersey Water Works presented to the New Jersey Society of Municipal Engineers about green infrastructure on September 14, 2016.
Green Infrastructure Workshop for Design ProfessionalsNew Jersey Future
On May 26, 2016, Michele Adams of Meliora Design and Tavis Dockwiller of Viridian Landscape Studio gave a presentation on green infrastructure during a workshop put together by New Jersey Future. The workshop was held for design professionals like engineers, landscape architects, and architects who design and/or review stormwater management systems in the Highlands of New Jersey.
Highlands Regional Green Infrastructure Workshop PresentationNew Jersey Future
On April 27, 2016, Michele Adams of Meliora Design and Tavis Dockwiller of Viridian Landscape Studio gave a presentation on green infrastructure during a workshop put together by New Jersey Future in partnership with ANJEC. The workshop was held for municipal leaders like mayors, planning and zoning board members, environmental commission leaders, and members of the general public in the Highlands region.
Philadelphia Water Department, Green City Clean Waters ProgramNew Jersey Future
This slide deck is from the City of Newark's trip to the Philadelphia to learn from the city's water department's green infrastructure program in September 2017.
Green Infrastructure Workshop for Design ProfessionalsNew Jersey Future
On May 26, 2016, Michele Adams of Meliora Design and Tavis Dockwiller of Viridian Landscape Studio gave a presentation on green infrastructure during a workshop put together by New Jersey Future. The workshop was held for design professionals like engineers, landscape architects, and architects who design and/or review stormwater management systems in the Highlands of New Jersey.
Highlands Regional Green Infrastructure Workshop PresentationNew Jersey Future
On April 27, 2016, Michele Adams of Meliora Design and Tavis Dockwiller of Viridian Landscape Studio gave a presentation on green infrastructure during a workshop put together by New Jersey Future in partnership with ANJEC. The workshop was held for municipal leaders like mayors, planning and zoning board members, environmental commission leaders, and members of the general public in the Highlands region.
Philadelphia Water Department, Green City Clean Waters ProgramNew Jersey Future
This slide deck is from the City of Newark's trip to the Philadelphia to learn from the city's water department's green infrastructure program in September 2017.
"Green Infrastructure to Manage Combined Sewer Overflows and Flooding" by Emi...scenichudson
"Green Infrastructure to Manage Combined Sewer Overflows and Flooding" presentation by Emily Vail of NYSDEC Hudson River Estuary Program from the 4/13/12 Columbia-Greene Revitalizing Hudson Riverfronts forum.
Blue and Green Cities The Role of Blue-Green Infrastructure in Managing Urban...Robert Brears
This book offers new research on urban policy innovations that promote the application of blue-green infrastructure in managing water resources sustainably. The author argues that urban water managers have traditionally relied on grey infrastructural solutions to mitigate risks with numerous economic and environmental consequences. Brears explores the role urban water managers have in implementing blue-green infrastructure to reduce ecological damage and mitigate risk. The case studies in this book illustrate how cities, of differing climates, lifestyles and income-levels, have implemented policy innovations that promote the application of blue-green infrastructure in managing water, wastewater and stormwater sustainably to reduce environmental degradation and enhance resilience to climate change. This new research on urban policy innovations that promote the application of blue-green infrastructure in managing water resources sustainably will be of interest to those working on water conservation and policy.
This presentation notes that in economic terms flooding is the major natural disaster experience in Trinidad and discusses the lack of sustainability of the current approach to drainage and flood mitigation and proposes some solutions such as storm water management at source as a possible solution to flooding
Announcing the "Developers' Green Infrastructure Guide": Atlantic Builders Co...New Jersey Future
The Developers Green Infrastructure Guide (Guide) is intended to educate New Jersey’s developers and their design professionals about incorporating green infrastructure (GI) into development projects. Through the Guide’s decision-making tools and case studies, attendees will understand more clearly GI options and advantages, compare alternatives, evaluate costs and benefits, and predict general return on investment. The Guide is a product of the Developers Green Infrastructure Task Force, a partnership between the New Jersey Builders Association and New Jersey Future.
SUSTAINABLE SITES: Integrating Stormwater Management into Site DesignTheodore Scott
Presentation on sustainable stormwater management design by Theodore E. Scott, PE, CPESC, LEED AP and Christina Muzquiz, RLA, LEED AP for the Baltimore Chapter of the USGBC.
In this presentation, the Stockholm Environment Institute presents are green infrastructure solutions to aid the resilience and sustainability of development of the Chindwin River Basin in Myanmar.
"Green Infrastructure to Manage Combined Sewer Overflows and Flooding" by Emi...scenichudson
"Green Infrastructure to Manage Combined Sewer Overflows and Flooding" presentation by Emily Vail of NYSDEC Hudson River Estuary Program from the 4/13/12 Columbia-Greene Revitalizing Hudson Riverfronts forum.
Blue and Green Cities The Role of Blue-Green Infrastructure in Managing Urban...Robert Brears
This book offers new research on urban policy innovations that promote the application of blue-green infrastructure in managing water resources sustainably. The author argues that urban water managers have traditionally relied on grey infrastructural solutions to mitigate risks with numerous economic and environmental consequences. Brears explores the role urban water managers have in implementing blue-green infrastructure to reduce ecological damage and mitigate risk. The case studies in this book illustrate how cities, of differing climates, lifestyles and income-levels, have implemented policy innovations that promote the application of blue-green infrastructure in managing water, wastewater and stormwater sustainably to reduce environmental degradation and enhance resilience to climate change. This new research on urban policy innovations that promote the application of blue-green infrastructure in managing water resources sustainably will be of interest to those working on water conservation and policy.
This presentation notes that in economic terms flooding is the major natural disaster experience in Trinidad and discusses the lack of sustainability of the current approach to drainage and flood mitigation and proposes some solutions such as storm water management at source as a possible solution to flooding
Announcing the "Developers' Green Infrastructure Guide": Atlantic Builders Co...New Jersey Future
The Developers Green Infrastructure Guide (Guide) is intended to educate New Jersey’s developers and their design professionals about incorporating green infrastructure (GI) into development projects. Through the Guide’s decision-making tools and case studies, attendees will understand more clearly GI options and advantages, compare alternatives, evaluate costs and benefits, and predict general return on investment. The Guide is a product of the Developers Green Infrastructure Task Force, a partnership between the New Jersey Builders Association and New Jersey Future.
SUSTAINABLE SITES: Integrating Stormwater Management into Site DesignTheodore Scott
Presentation on sustainable stormwater management design by Theodore E. Scott, PE, CPESC, LEED AP and Christina Muzquiz, RLA, LEED AP for the Baltimore Chapter of the USGBC.
In this presentation, the Stockholm Environment Institute presents are green infrastructure solutions to aid the resilience and sustainability of development of the Chindwin River Basin in Myanmar.
This presentation was given at the 2019 Catchment Management Notwork meeting, which was held on the 11 October in Tullamore. All our local authorities and other bodies responsible for implementing the Water Framework Directive in Ireland attended to share knowledge and learn from each other.
New Jersey Future and Pinelands Preservation Alliance hosted a workshop teaching communities all about New Jersey Future's New Jersey Green Infrastructure Municipal Toolkit. As part of this event, participants learned how to use the toolkit as a resource to plan, implement, and sustain green infrastructure in their town!
Environment management - water managementAnish Gawande
Water management is the control and movement of water resources to minimize damage to life and property and to maximize efficient beneficial use. Good water management of dams and levees reduces the risk of harm due to flooding. Irrigation water management systems make the most efficient use of limited water supplies for agriculture.
Drainage management involves water budgeting and analysis of surface and sub-surface drainage systems. Sometimes water management involves changing practices, such as groundwater withdrawal rates, or allocation of water to different purposes.
01.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Ro...SomanshKalra
Human Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptxHuman Following Robot.pptx
Easy Rainwater Harvesting Techniques India Water Portal.pdfIndia Water Portal
Rainwater harvesting techniques are vital for sustainable water management, and at India Water Portal, we're committed to sharing the most effective methods. Our blog delves into various strategies, from simple setups for residential use to advanced systems for commercial purposes. Explore innovative approaches like rooftop rainwater harvesting and groundwater recharge, along with traditional methods adapted to modern needs. With our expert insights, you'll learn how to harness nature's gift effectively, ensuring water security for generations to come. Join us on India Water Portal to discover practical solutions that empower communities and protect our precious water resources.
Willie Nelson Net Worth: A Journey Through Music, Movies, and Business Venturesgreendigital
Willie Nelson is a name that resonates within the world of music and entertainment. Known for his unique voice, and masterful guitar skills. and an extraordinary career spanning several decades. Nelson has become a legend in the country music scene. But, his influence extends far beyond the realm of music. with ventures in acting, writing, activism, and business. This comprehensive article delves into Willie Nelson net worth. exploring the various facets of his career that have contributed to his large fortune.
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Introduction
Willie Nelson net worth is a testament to his enduring influence and success in many fields. Born on April 29, 1933, in Abbott, Texas. Nelson's journey from a humble beginning to becoming one of the most iconic figures in American music is nothing short of inspirational. His net worth, which estimated to be around $25 million as of 2024. reflects a career that is as diverse as it is prolific.
Early Life and Musical Beginnings
Humble Origins
Willie Hugh Nelson was born during the Great Depression. a time of significant economic hardship in the United States. Raised by his grandparents. Nelson found solace and inspiration in music from an early age. His grandmother taught him to play the guitar. setting the stage for what would become an illustrious career.
First Steps in Music
Nelson's initial foray into the music industry was fraught with challenges. He moved to Nashville, Tennessee, to pursue his dreams, but success did not come . Working as a songwriter, Nelson penned hits for other artists. which helped him gain a foothold in the competitive music scene. His songwriting skills contributed to his early earnings. laying the foundation for his net worth.
Rise to Stardom
Breakthrough Albums
The 1970s marked a turning point in Willie Nelson's career. His albums "Shotgun Willie" (1973), "Red Headed Stranger" (1975). and "Stardust" (1978) received critical acclaim and commercial success. These albums not only solidified his position in the country music genre. but also introduced his music to a broader audience. The success of these albums played a crucial role in boosting Willie Nelson net worth.
Iconic Songs
Willie Nelson net worth is also attributed to his extensive catalog of hit songs. Tracks like "Blue Eyes Crying in the Rain," "On the Road Again," and "Always on My Mind" have become timeless classics. These songs have not only earned Nelson large royalties but have also ensured his continued relevance in the music industry.
Acting and Film Career
Hollywood Ventures
In addition to his music career, Willie Nelson has also made a mark in Hollywood. His distinctive personality and on-screen presence have landed him roles in several films and television shows. Notable appearances include roles in "The Electric Horseman" (1979), "Honeysuckle Rose" (1980), and "Barbarosa" (1982). These acting gigs have added a significant amount to Willie Nelson net worth.
Television Appearances
Nelson's char
UNDERSTANDING WHAT GREEN WASHING IS!.pdfJulietMogola
Many companies today use green washing to lure the public into thinking they are conserving the environment but in real sense they are doing more harm. There have been such several cases from very big companies here in Kenya and also globally. This ranges from various sectors from manufacturing and goes to consumer products. Educating people on greenwashing will enable people to make better choices based on their analysis and not on what they see on marketing sites.
"Understanding the Carbon Cycle: Processes, Human Impacts, and Strategies for...MMariSelvam4
The carbon cycle is a critical component of Earth's environmental system, governing the movement and transformation of carbon through various reservoirs, including the atmosphere, oceans, soil, and living organisms. This complex cycle involves several key processes such as photosynthesis, respiration, decomposition, and carbon sequestration, each contributing to the regulation of carbon levels on the planet.
Human activities, particularly fossil fuel combustion and deforestation, have significantly altered the natural carbon cycle, leading to increased atmospheric carbon dioxide concentrations and driving climate change. Understanding the intricacies of the carbon cycle is essential for assessing the impacts of these changes and developing effective mitigation strategies.
By studying the carbon cycle, scientists can identify carbon sources and sinks, measure carbon fluxes, and predict future trends. This knowledge is crucial for crafting policies aimed at reducing carbon emissions, enhancing carbon storage, and promoting sustainable practices. The carbon cycle's interplay with climate systems, ecosystems, and human activities underscores its importance in maintaining a stable and healthy planet.
In-depth exploration of the carbon cycle reveals the delicate balance required to sustain life and the urgent need to address anthropogenic influences. Through research, education, and policy, we can work towards restoring equilibrium in the carbon cycle and ensuring a sustainable future for generations to come.
Characterization and the Kinetics of drying at the drying oven and with micro...Open Access Research Paper
The objective of this work is to contribute to valorization de Nephelium lappaceum by the characterization of kinetics of drying of seeds of Nephelium lappaceum. The seeds were dehydrated until a constant mass respectively in a drying oven and a microwawe oven. The temperatures and the powers of drying are respectively: 50, 60 and 70°C and 140, 280 and 420 W. The results show that the curves of drying of seeds of Nephelium lappaceum do not present a phase of constant kinetics. The coefficients of diffusion vary between 2.09.10-8 to 2.98. 10-8m-2/s in the interval of 50°C at 70°C and between 4.83×10-07 at 9.04×10-07 m-8/s for the powers going of 140 W with 420 W the relation between Arrhenius and a value of energy of activation of 16.49 kJ. mol-1 expressed the effect of the temperature on effective diffusivity.
Natural farming @ Dr. Siddhartha S. Jena.pptxsidjena70
A brief about organic farming/ Natural farming/ Zero budget natural farming/ Subash Palekar Natural farming which keeps us and environment safe and healthy. Next gen Agricultural practices of chemical free farming.
Artificial Reefs by Kuddle Life Foundation - May 2024punit537210
Situated in Pondicherry, India, Kuddle Life Foundation is a charitable, non-profit and non-governmental organization (NGO) dedicated to improving the living standards of coastal communities and simultaneously placing a strong emphasis on the protection of marine ecosystems.
One of the key areas we work in is Artificial Reefs. This presentation captures our journey so far and our learnings. We hope you get as excited about marine conservation and artificial reefs as we are.
Please visit our website: https://kuddlelife.org
Our Instagram channel:
@kuddlelifefoundation
Our Linkedin Page:
https://www.linkedin.com/company/kuddlelifefoundation/
and write to us if you have any questions:
info@kuddlelife.org
2. Panel
• Jeremiah Bergstrom, Rutgers University
• Russ Dudley,TetraTech
• Rodman Ritchie,AKRF
• Jennifer Gonzalez, City of Hoboken
• Kandyce Perry, New Jersey Future
• LouiseWilson, New Jersey Future
3. 3:30 PM Adjourn
Agenda
Part 1
1:00 PM Welcome
1:10 PM What is green infrastructure and why does it matter?
1:40 PM Green vs. Grey: Case Study Discussion
2:35 PM Green Infrastructure Survey
Part 2
2:55 PM The Path Forward:Tools and Options forTowns
3:10 PM Lessons from Hoboken
3:25 PM Raffle
2:45 PM Break
8. GICommittee Purpose
The Green Infrastructure subcommittee
works to promote and advance construction
of green infrastructure projects in CSO
communities and across the state.
10. Work Plan Action Items Volunteers
Action 1: Sustainable Jersey Actions Chris Obropta, Jen Gonzalez, Maureen
Krudner, Jennifer Duckworth, MariaWatt
Action 2: Green Infrastructure in Parks DanVan Abs, Chris Sturm
Action 3: Green Infrastructure
Monitoring Database
NickTufaro, Heather Fenyck, Maria Watt
Action 4: Green Streets Rob Pirani, Jen Gonzalez, Jennifer
Duckworth, Maureen Krudner, David
Antonio
Action 5: Green Infrastructure in
Construction/Development
Kandyce Perry, LouiseWilson
Action 6: Citizen’s Handbook for Green
Infrastructure
AshwaniVasishth ,TimVan Epp
Why are we here?
14. Introduction to Green Infrastructure
www.water.rutgers.edu
Jeremiah Bergstrom, LLA, ASLA
jbergstrom@envsci.rutgers.edu
Christopher C. Obropta, Ph.D., P.E.
obropta@envsci.rutgers.edu
September 14, 2016
15. Water Resources Program
NJDEP Definition
"Green Infrastructure" means methods of
stormwater management that reduce wet
weather/stormwater volume, flow, or changes the
characteristics of the flow into combined or
separate sanitary or storm sewers, or surface
waters, by allowing the stormwater to infiltrate, to
be treated by vegetation or by soils; or to be stored
for reuse. Green infrastructure includes, but is not
limited to, pervious paving, bioretention basins,
vegetated swales, and cisterns.
16. Water Resources Program
US EPA Definition
Green infrastructure is a cost-effective, resilient
approach to managing wet weather impacts that
provides many community benefits. While single-
purpose gray stormwater infrastructure—
conventional piped drainage and water treatment
systems—is designed to move urban stormwater
away from the built environment, green
infrastructure reduces and treats stormwater at its
source while delivering environmental, social, and
economic benefits.
17. Water Resources Program
What is Green Infrastructure?
…an approach to stormwater
management that is cost-
effective, sustainable, and
environmentally friendly
Green Infrastructure projects:
• capture
• filter
• absorb
• reuse
stormwater to help restore the
natural water cycle.
18. Water Resources Program
How does Green Infrastructure work?
Green Infrastructure
practices use soil and
vegetation to recycle
stormwater runoff
through infiltration and
evapotranspiration.
20. Water Resources Program
1st Attempt at Stormwater Management
Capture all runoff, pipe it, and send it directly to the river . . .prior to mid 1970’s
21. Water Resources Program
2nd Iteration of Stormwater Management
Capture runoff, detain it, release it slowly to the river…mid 1970’s to 2004
− Detain peak flow during large storm events for 18 hours (residential) or
36 hours (commercial)
− Reduce downstream flooding during major storms
− Use concrete low flow channels to minimize erosion, reduce standing
water, quickly discharge low flows
− Does not manage runoff from smaller storms allowing stormwater to
pass through the system
− Directly discharges stormwater runoff to nearby stream, waterway, or
municipal storm sewer system (at a controlled/managed rate)
22. Water Resources Program
3rd Generation of Stormwater Management
• Reduce stormwater runoff
volume
• Reduce peak flows and
flooding
…and….
• Maintain infiltration and
groundwater recharge
• Reduce pollution discharged
to local waterways
abc Action News, August 27, 2012
23. Water Resources Program
2004 NJ Stormwater Regulations
Municipal “Phase II”
NJPDES Stormwater
Permitting Rules (N.J.A.C. 7:14a)
Stormwater Management
Rules (N.J.A.C. 7:8)
• Municipalities and large public
complexes must obtain NJPDES
permits for their storm sewer system
• Permittees must develop,
implement, and enforce a
stormwater program that protects
water quality
• Permittees must prepare and
implement a Stormwater Pollution
Prevention Plan (SPPP):
• Municipal stormwater
management plan
• stormwater control ordinance
• public education program
• Sets forth stormwater management
goals for new development:
• Reduce flood damage
• Reduce soil erosion
• Protect public safety through
proper design and operation of
stormwater management
basins
• Minimize increases in peak
runoff
• Maintain groundwater recharge
• Protect water quality
• Sets forth the required components
of regional and municipal
stormwater management plans
24. Water Resources Program
Current Stormwater Management Approach
• Use nonstructural
management strategies
• Protect communities
from increases in
stormwater volume and
peak flows as a result of
new development
• Maintain groundwater
recharge
• Protect waterways from
pollution carried in
stormwater runoff
NJ.com, August 28, 2011
25. Water Resources Program
2015 CSO Individual Permits
• Under this permit action, the permittee will be required to evaluate a
broader range of control alternatives… The control alternatives shall
include: green infrastructure, increased storage in the collection
system, STP expansion/storage, I/I reduction, sewer separation,
discharge treatment and bypass of secondary treatment at the STP.
• The permit requires the permittee to consider at least the following:
Green infrastructure which allows for stormwater management close
to its source, providing both water quality treatment and some
volume control. The volume that is retained onsite and kept out of
the sewer system can help delay expensive gray infrastructure
maintenance and upgrades. Some examples of green infrastructure
measures include, but are not limited to, pervious pavements, street
bump-outs, rain gardens, and tree trenches.
26. Water Resources Program
Why Green infrastructure?
• Remediates flooding
• Improve water quality
• Reduces combined sewer
overflows
• Cost-effective
• Small-scale systems that
capture runoff near its source
• Mimic and help restore the
natural hydrologic cycle
• Enhances aesthetics
• Cleans the air
• Reduces heat island effect
28. Water Resources Program
Green Infrastructure Systems:
• Vegetative Systems
• Bioretention Systems/Rain Gardens
• Stormwater Planters
• Harvesting Systems
• Cistern/Rain Barrel
• Downspout Planter Boxes
• Storage Systems
• Street Trees/Stormwater Tree Pits
• Pervious Pavement
29. Water Resources Program
Difference between the types of systems:
• Vegetative Systems: focus on reducing water quality impacts. These systems
are typically located close to the sources of runoff and can manage the smaller
storms of several inches. The main treatment mechanisms are infiltration,
filtration, and evapotranspiration.
• Harvesting Systems: focus on the conservation, capture, storage, and reuse of
rainwater. These systems are located close to residential and commercial
buildings.
• Storage Systems: provide storage of stormwater, quantity control, and infiltrate
stormwater runoff. These systems are typically located close to runoff sources
within residential, commercial, and industrial landscapes. The main treatment
mechanism is reducing peak flows of stormwater by storing it before it enters
the sewer system.
30. Water Resources Program
Bioretention Systems/Rain Gardens
Vegetative System
Landscaped, shallow depression that captures, filters,
and infiltrates stormwater runoff.
31. Water Resources Program
Bioretention Systems / Rain Gardens
How it works:
These systems capture, filter, and infiltrate stormwater runoff using soils
and plant material. They are designed to capture the first few inches of
rainfall from rooftops, parking areas, and streets.
Benefits:
Removes nonpoint source pollutants from stormwater runoff while
recharging groundwater
Restore/“mimic” predevelopment site hydrology
• Infiltration
• Evapotranspiration
Improve water quality
• Sedimentation, filtration, & plant uptake
• Microbial Activity
Add aesthetic value
• Plant selection
Vegetative System
36. Water Resources Program
Stormwater Planters
Vegetative System
Vegetated structures that are built into the sidewalk to
intercept stormwater runoff from the roadway or
sidewalk.
37. Water Resources Program
Stormwater Planters
How it works:
• It is a structural bioretention system that is installed in a
sidewalk
• Contains a layer of stone that is topped with bioretention
media and plants or trees
• Captures stormwater runoff from the roadway and sidewalk
• Once the system fills up, runoff flows back into the street or
into an overflow drain which connects to the sewer system
Benefits:
• Allows water to infiltrate into the ground
Vegetative System
42. Water Resources Program
Cisterns/ Rain Barrels
Vegetative System
These systems capture rainwater, mainly from rooftops,
in cisterns or rain barrels. The water can then be used
for water garden, washing vehicles, or for other non-
potable uses.
43. Water Resources Program
Cistern/ Rain Barrel
How it works:
• Capture, diversion, and storage of rainwater
Benefits:
• Eliminates need for complex and costly
distribution systems
• Provides additional water source
• Landscape irrigation
• Reduces flow to stormwater drains
• Reduces non-point source pollution
• Delays expansion of existing water treatment
plants
• Reduces consumers’ utility bills
Harvesting System
48. Water Resources Program
Downspout Planters
Harvesting System
Wooden or concrete boxes with plants installed at the
base of the downspout that provide an opportunity to
beneficially reuse rooftop runoff.
49. Water Resources Program
Downspout Planter: Harvesting System
How it works:
• Constructed boxes placed against buildings
• Contains stone/gravel topped with sandy compost
mixture and plants
• Designed with underdrain and overflows
• Disconnects downspouts
Benefits:
• Aesthetics
• Provide some rainfall storage
Harvesting System
51. Water Resources Program
Design Parameters for Downspout Planters:
• Planter box must be adequately reinforced to
hold soil, stone, and plants
• Limited capacity for stormwater retention –
mostly infiltration
• Soil infiltration rate is 5.0 inches per hour
• Underdrains are installed to drain the water
after the storm event
55. Water Resources Program
Stormwater Tree Pits/Street Trees
Storage System
Pre-manufactured concrete boxes or enhanced tree
pits that contain a special soil mix and are planted with
a tree or shrub. They filter stormwater runoff and
provide limited storage capacity.
56. Water Resources Program
Stormwater Tree Pits/Street Trees
How it works:
• Pervious concrete is installed to act as an additional storage
system to increase the stormwater capacity treated by the
system.
• Systems with low infiltration rates due to soil composition
are often designed with an underdrain system to discharge
the water.
• This system is often designed with conventional asphalt in
areas of high traffic to prevent any damage to the system.
Benefits:
• Improved aesthetics
• Healthier trees
• Reduced heat island effect
Storage System
59. Water Resources Program
Pervious Pavements
Storage System
These surfaces include pervious concrete, porous asphalt,
interlocking concrete pavers, and grid pavers. These materials
allow water to quickly pass through the material into an
underlying layered system of stone that holds the water, allowing
it to infiltrate into the underlying uncompacted soil.
60. Water Resources Program
Pervious Pavement
How it works:
• Underlying stone reservoir
• Porous asphalt and pervious concrete are manufactured without
"fine" materials to allow infiltration
• Grass pavers are concrete interlocking blocks with open areas
• Ideal application for porous pavement is to treat a low traffic or
overflow parking area
Benefits:
• Manage stormwater runoff, minimize site disturbance, promote
groundwater recharge
• Low life cycle costs, alternative to costly traditional stormwater
management methods
• Contaminant removal as water moves through layers of system
• Allows runoff to flow through the surface to an underlying storage
layer
Storage System
65. Water Resources Program
Green Infrastructure Manual for New Jersey
http://water.rutgers.edu/GreenInfrastructureGuidanceManual.html
66. QUESTIONS?
Jeremiah Bergstrom, LLA, ASLA
jbergstrom@envsci.rutgers.edu
Christopher C. Obropta, Ph.D., P.E.
obropta@envsci.rutgers.edu
www.water.rutgers.edu
70. • A green and complete street is
designed to mange a street’s
stormwater runoff by using green
infrastructure, and provide safe
and accessible routes for all
users.
Photo: Portland, OR. Credit: Kevin Robert Perry
71. 49%
29%
17%
5%
Land Area by Use in New
York City
Building &
Parking Lots
Streets
Parks &
Open Space
Vacant Land
16%
17%
58%
6% 3%
Land Area by Use for a
Residential Development
in Olympia, WA
Roof
Street
Lawn
Parking/
Driveways
Sidewalk
All Transportation Surface = 26%
(Impervious Surface Reduction Study. Olympia, WA, 1995)(PlaNYC Sustainable Stormwater Management Plan, 2008)
72. Typical suburban
street
Convey stormwater into
buried conveyance
systems
Capture surface runoff
into a landscaped area.
Complete and green
suburban street
Maplewood, MN (EPA)“Anywhere, USA” (EPA)
74. 74
• Reduction of stormwater
• Enhanced safety
• Improved water quality
• Reduce heat island effect
• Community livability
• Catalyst for redevelopment
75. 75
• New streets!
• Look for opportunities
Curb lane
Tree
Planting
Excess Width
91. • Ownership = Public
• Distance to Storm Drain
less than 500 ft
• Some portion of the site
has slope < 10 percent
• Not located in river bed
and in conveyance
channels
SMonaBlvd
E 120th St
MonaBlvd
Los Angeles River Watershed
Potential Centralized BMPs
Mona Park
NAD_1983_StatePlane_California_V_FIPS_0405_Feet
Map produced 05-19-2011 - E. Moreno
Legend
Roads
Stormwater Main
Path for IngressEgress
Area of Geotechnical Investigation
0 120 24060
Feet
Flow
Direction±
GlenAvenue
DrainSystem
92. • Green infrastructure on
public parcels
• Green infrastructure on
private residential
parcels
• Green infrastructure
resulting from
redevelopment
101. Aramingo Business Improvement District
The BID is a business association/shopping district
Economic Development & Job Creation
Sanitation and Security Services
BID covers an
area of roughly 70
acres
Highly impervious
Highly constrained
Unmanaged
stormwater
Unwelcoming
environment
102. Developed Stormwater Mitigation Scenarios
GSI Master Planning Project
Identified opportunities and constraints through desktop
assessment and field inspections
Interactive Design Sessions to evaluate and rank
alternatives
• Regional GSI systems
• 2 Public ROW Scenarios
• Smaller GSI systems on private property
103.
104. Cost for Public GSI
Developed cost estimates for design scenarios
Scenario 1 - public only $7.71 per sf
Scenario 1 – public & private $7.62 per sf
Scenario 2 – public only $$5.62 per sf
Scenario 2 – public & private $5.16 per sf
105. American Street GSI Planning Study
14-Block Underdeveloped industrial corridor
Extended Study Area
Proposing GSI to stimulate transformation
Over-widened right-of-way and underdeveloped area
creates opportunity
106. Design Approach
Manage 1” of public and private runoff
Multi-objective
Maintain multiple uses – pedestrian, truck traffic, bicycles,
public space
Preserve industrial character
Enhance economic development potential
Maintain
community
connections –
schools, green
space, trails
Design low
maintenance
systems
Enhance safety
107. Opportunities and Constraints
Industrial – Commercial
Vacant – Small
residential pockets
Pedestrian – Institutional
– Residential
Property value gradient
108. American Street Design
Developed typical layouts and
renderings
Curbside bioretention areas
Curbless design to allow direct
sheet flow
Modular low-maintenance
forebays
Slow-release irrigation trenches
Access ports for private customers
109. Major Strategies for Wider Study Area
Vacant Lots
Development/Redevelopment Partnerships
School/Park Retrofits
Sidewalk Bioretention
110. American Street Summary
Corridor only
55 greened acres
$300 - $400k per
greened acre
Total Cost is $16.5 –
22M
Vacant Lots
43 Greened Acres
$100 - $300k per
greened acre
Total Cost is $4.3 –
12.9M
Schools and Parks
36 Greened Acres
$100 - $300k per greened
acre
Total Cost is $3.6 – 10.8M
Sidewalk Bioretention
70 Greened Acres
$300 - $400k per greened
acre
Total Cost is $21 – 28M
112. ShopRite
5 acre site
97% Impervious
Existing Charges
are $2,000 per
month
113.
114. ShopRite GSI Concept
Could manage 4.2 acres of IA
Project cost is $460,000 ($110k/acre or $2.51/sf)
SMIP Grant would cover $420,000
Cost to ShopRite is $40,000
Annual savings is $17,000
Break even is roughly 2 years
Could combine GSI with re-paving project to reduce
project cost
115. Summary
GSI Improvements will provide city-wide benefits and
benefits to local property owners
Stormwater charge reductions for business owners
Will attract more visitors to the corridor
Could explore public/private partnerships to reduce
implementation costs
Recommend developing public/private cost sharing
policy
Cost share
Long-term O&M
Financing options
117. Newman Paper Company – Philadelphia, PA
40-acre paper
recycling facility
located on the North
Delaware Riverfront
Uses large quantities
of potable water in
paper making process
72.7 million gallons per
year
Total PWD Charges
$824,400 for water,
sewer and stormwater
118. Newman Paper Company – Philadelphia, PA
Achieve reductions
in both stormwater
and potable water
charges
Collect water from
265,000 sf (6.08
acres) of roof area
into holding tanks
Capture of 4.8
million gallons per
year or
approximately 7%
of process use
Process is a volume
reducing practice due to
evaporative losses
Captured stormwater
consumed by process
within 72 hours
119. Newman Paper – Summary
Project cost = $500,000
($1.68/square foot)
Total stormwater credits
= $26,500/year
Potable water charge
savings = $15,600/year
SMIP grant of $370,000
($1.39/square foot)
Newman contribution of
$130,000 ($0.49/square
foot)
Cash flow break even
period of less than 5
years
125. Plans
• Green Infrastructure Plan
– Includes projects that can
become a mitigation plan.
• Master Plan
– Guiding Principles
– Conservation element
– Circulation element
– Land Use element
• Stormwater Plan
• Capital Plan (roads, parks,
muni facilities/DPW, schools)
• Large-scale Land Use
Plans
– Redevelopment Plans
– Affordable Housing Plan
126. Planning Principles
• Protect Natural
Resources
– Trees
– Open Space
– Stream corridors
• Promote Compact
Development and Infill
• Complete Streets /
Green Streets
• Efficient Parking
• Green Infrastructure
Stormwater Provisions
127. Ordinances
Stormwater Ordinance
Require volume
retention for 1.25”, 2-
hour design storm
Allow waivers only if
mitigation requirements
are met (you need a
mitigation plan w/
specific projects or a
“fee in lieu”)
Emphasize the “green”
in GI. Go for benefits
beyond holding volume
– e.g., street trees and
pocket parks for
economic and public
health benefits.
129. Incentives
• Signal: This is what we
want.
• Expedited review
• Credits for Certain GI
Practices
– Green Roofs
– Pervious Pavements
– Trees
– “Disconnected”
Impervious
• Other Incentives
– Increased FAR
130. Walk the Talk: Processes
• Encourage sketch
plan and early meeting
– informal
• Offer green review,
with clear guidance
and support
• Provide information
about options,
practices, greatest
impact.
• Checklists for all.
Minimize guesswork.
131. Walk the Talk:
Education and Training
• Public Works – key
players
• Planning Board, EC,
ZBA
• All municipal and
public projects
maximize GI (schools,
parks, streets, etc.)
• Staff training
• Municipal
maintenance practices
132. Walk the Talk: Municipal Projects
• Capital Plan – GI in every
project
• Achieve 100% retention and
demonstrate various
practices:
– Infiltration (porous pavement
– Capture and re-use (cisterns at
muni facilities, use water for
vehicle washing, irrigation, etc.)
– Uptake by plants /
Evapotranspiration
• One high visibility GI project
• Interpretive signage – show &
tell
133. Make Life Easier: Public
Education and Acceptance
• Public Understanding of GI
and Stormwater
• Embrace of different
landscape aesthetics (less
lawn, more plants)
• Benefits:
– Urban heat island reduction /
energy savings
– Better air quality
– Higher property values
– Increased foot traffic in
downtowns
– Human health (physical and
mental health)
– Habitat – pollinators,
songbirds, amphibians
134. Resources
• Rutgers!
– GI Guidance Manual for NJ
– Presentation: “Ideas and Resources
for Implementing GI In Your
Community”
– Fact sheets galore
• EPA
– Modeling Tools
– Cost-Benefit Resources page
– Green Infrastructure Wizard:
“GI-Wiz”
– Funding Sources
• Delta Institute’s Green
Infrastructure Toolkit for Property
Owners and Municipalities: Green
Infrastructure Designs: Scalable
Solutions to Local Challenges
138. Rainwater
Harvesting
Code §136-2
Legalized use of rain barrels in 2011
Rain barrels were previously considered a nuisance
Any container maintained for the short-term
collection of rainwater must have a properly fitting lid,
be access-resistant to insects and rodents and must
be maintained in good working order at all times and
must be kept in a clean and sanitary way
City Hall
139. Green Roofs
Code §196-28
Incentivized use of green roofs in 2015
Green roofs are encouraged wherever possible
(especially on roofs with surface area of ≥ 5,000 SF)
If a green roof is provided on at least 50% of the roof
surface, the remainder may be utilized for a roof deck
Rooftop gardens are considered a green roof and may
cover up to 90% of a roof's surface area
14th & Park Street
140. Site Plan
Review
Code §196-34
City requires the submission of a stormwater
management plan with development applications,
“setting forth the proposed method of controlling
and managing stormwater on the site,” but:
Code does not specify methods for controlling and
managing stormwater
Code does not require or encourage green
infrastructure as a method
Planning Board routinely requests that applicants:
Increase the on-site stormwater detention beyond
that required by NHSA (often successful in
achieving double the required capacity )
Use green infrastructure for stormwater
management (specifically green roofs and rain
gardens)
141. Proposed
Amendment
toStormwater
Management
Plan
Code §166
Current Stormwater Management Plan was
adopted in 2007
Only applies to major development projects (≥ 1
acre disturbance) in the MS4 area
Purpose of the proposed amendment is to
supplement the Stormwater Management Plan, tie
in the Green Infrastructure Strategic Plan
Sets broad stormwater design and performance
standards to address erosion control, groundwater
recharge, stormwater retention, runoff quantity
and runoff quality
Applies to new development, redevelopment and
disturbance ≥3,000 SF across the entire City
Ensures that individual property owners are not
limited in how they fulfill regulatory requirements
Fosters innovation
142. Proposed
Amendment
toStormwater
Management
Ordinance
Code §166
Requires using nonstructural BMPs or green
infrastructure to the maximum extent practicable
before using structural BMPs
If applicant contends that nonstructural BMPs or
green infrastructure are infeasible, applicant bears
the burden of proving infeasibility
Requires an O&M plan for stormwater management
BMPs
References, and supersedes, latest NHSATechnical
Requirements for Stormwater Management:
Focuses on controlling runoff volume, not runoff rate
Different QuantityVolume method of calculation
Does not distinguish an application based on sanitary
sewerage flows
Like NHSA, gives credit for removal of 25%
impervious cover
145. Jennifer Gonzalez AICP, ENV SP
Principal Planner
City of Hoboken
jgonzalez@hobokennj.gov
Thank you!
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