Newsfeed, Presentations Eileen Kaley Newsfeed, Presentations Eileen Kaley

2016 Maryland Groundwater Symposium

Tackling Hydrogeologic Complexity

Tackling Complexity through Stochastic Modeling

Yet Another Hydrogeologic Study of the Gettysburg Basin

Tackling Hydrogeologic Complexity

  • Intermediate-scale geologic features exert a large influence on the groundwater flow patterns.
  • Suspected seasonal reversals of groundwater flow direction complicate the groundwater flow regime mapping.
  • Stochastic modeling techniques were employed to frame the unquantified variations inherent within this unique hydrogeologic system.
  • Source water protection zones were generated by aggregating thousands of flow simulations that meet observed criterion ranges.
     

 

FOR MORE INFORMATION: Al Guiseppe, PG, Director Water Supply and Development

Read More
Newsfeed, Spottlight16 Eileen Kaley Newsfeed, Spottlight16 Eileen Kaley

Spottlight - September 2016

Spottlight on Building Safety

Building Safety

Safety in building construction traces to the Code of Hammurabi around 1750 BC, offering rather straightforward dis-incentives of re-work or death. A mere six rules pertained to damages due a builder for his failure to properly construct a home. Building and natural catastrophes like the Great Fire of London (1666), the Great Fire of Chicago (1871), 1906 San Francisco Earthquake, and more recent Hurricane Sandy led to voluminous developments to identify risks, create consistent standards, and changes to reflect new materials and methods.

The International Code Council’s (ICC) 2015 International Building Code contains slightly less than 700 pages; 35 chapters and 13 appendices, with the singular focus of providing a model for minimum acceptable safety standards to protect public health and welfare for every type of building occupancy. Modern codes go one step further and also provided minimum standards for sustainability related to energy consumption. And the IBC is just one of many standards and guidelines we work with in industrial, commercial, municipal projects. 

Inadequate Ventilation Design Impacts Air Quality

Since man began using indoor fires for heating, ventilation of indoor air has existed, and still today the primary source of indoor air quality issues result from inadequate ventilation. Contemporary building contaminants, including VOCs and synthetic fibers from building and furnishing materials; microbial, carbon dioxide, carbon monoxide, radon, asbestos, etc. can trigger discomfort, illness, allergic reactions, and temperature and humidity both impact concentrations of certain contaminants. In broad terms, ventilation design involves natural ventilation, mechanical ventilation, or local exhaust. 

Electrical Engineering Issues Supporting Building Safety

Opportunities for electrical faults and associated health risks to workers exist throughout industrial, municipal, and institutional facilities, with electrical distribution equipment and large equipment associated with manufacturing, process systems, research, HVAC, and central utility plants. The IBC by reference to the NEC (National Electrical Code) and NFPA (National Fire Protection Association) dictates that an electrical system be evaluated for Arc Flash hazards and that equipment be appropriately labeled according to the protection required.

Hazards associated with electricity is a serious workplace hazard; The Electric Power Research Institute  (EPRI) and National Institute for Occupational Safety and Health (NIOSH) have very good videos describing research into arc flash and stories by those affected by incidents.

Maintaining Building Safety While Modifying Footprint and Function

The average building life cycle of non-residential structures extends many, many years. In fact, according to the US Energy Information Administration’s (EIA) 2012 report, Commercial Buildings Energy Consumption Survey, “commercial buildings remain in use for many decades. Although about 12% of commercial buildings (comprising 14% of commercial floor space) were built since 2003, the commercial building stock is still fairly old, with about half of all buildings constructed before 1980; the median age of buildings in 2012 was 32 years.” It’s also true that within a short period of time, buildings become functionally unsuitable, or that facilities constructed for one product or purpose evolves to serve another. 

Regulatory Updates:

Tax Code: Section 179-D - Energy-Efficient Commercial Building Deduction

National BIM Guide for Owners Now Available for Public Review

 

Read More
Newsfeed, Spottlight16 Eileen Kaley Newsfeed, Spottlight16 Eileen Kaley

Spottlight - August 2016


Prevent disasters with a proactive approach to water quality. Protect your system with current and comprehensive emergency procedures.Maintain a current Emergency Response Plan to help reduce impacts to your system by unforeseen circumstances, or situations beyond your control.
 

Six Tips for a Healthy Water or Sewer System

1. Check the Pulse - Through your day-to-day operations of your water/wastewater system, are you keeping your finger on the pulse of your system?  One way to do that is to liberate your Geographic Information System (GIS) data through the use of web-enabled mobile applications. Transform your water/wastewater infrastructure data into an easy-to-use operations Asset Management system.

2. Monitor the Pressure - Starting with the first day of pumping, the yield of a groundwater well will slowly begin to decline. The decline in performance is attributed to physical and biological clogging of the well. As water is pumped, fine sediment can be drawn towards the well, plugging the water flow pathways. Biological growth can also develop throughout the well, but especially in the primary water-bearing zones, where the bacteria can effectively reduce the well yield.

3. Protect your Immune System - In the event of an emergency that could impact treatment plant operations, immediate action is often critical in preventing or minimizing the incident. Boost your immunity from disaster by developing a comprehensive emergency response plan (ERP) as required by DEP. Possible emergency situations include a distribution system line break, power outages, drought conditions, disinfection system failure, contamination of supply, pump failure, and prolonged outage.

4. Prevention is the Best Protection - The first step towards prevention is to develop a Source Water Protection Plan. To maintain its usefulness, a Source Water Protection Plan should be updated every five years.

5. Check your Footing - In certain parts of Berks County, the ground can fall out from beneath your feet. What would you do if your utility lines were threatened by a sinkhole? SSM personnel have assisted municipalities, insurance companies, and legal defense teams in settlement instances involving sinkhole and non-sinkhole related damage claims. By observing, evaluating and documenting site specific details, we have often been successful at determining the causes leading to ground failures. Determining these details and causes have often been beneficial to our clientele whereby at times limiting their liability or determining their involvement with remediating sites and damaged infrastructures.

6. Have a Vision - Accurate knowledge of your system asset and infrastructural component locations in your water/wastewater system plays a vital role in healthy operations. Key operational decisions require precise geographic information. Relying on an outdated or incomplete system map will lead to wasted time and potentially costly mistakes. A comprehensive system map will provide the means to effective management. Just as our eyes are the window to the world, your system map is your view to the system as a whole. 20/20 vision of your system requires accurate locational data. Armed with up-to-date and comprehensive infrastructure data, the system can be run with greater efficiency and operational awareness.

 

 

Read More
Newsfeed, Services Municipal Planni Mark Stabolepszy, PE Newsfeed, Services Municipal Planni Mark Stabolepszy, PE

Is Your Community Connected?

A greenway, open space and trail network connects people to nature, each other, village and town centers, parks, historic sites, and the other resources found in your community. 

A greenway, open space and trail network connects people to nature, each other, village and town centers, parks, historic sites, and the other resources found in your community.  It also helps connect us to ourselves by providing opportunities for quiet time and reflection. 

Individual health is promoted by providing opportunities for walking, bicycling and jogging; but providing green infrastructure also promotes community health by increasing the quality of life, contributing to economic development, providing an alternative means of transportation, protecting landscapes, and protecting wildlife habitats. 

Planning a greenway, open space and trail network provides opportunities for your residents and visitors to stretch their legs, but is also vital to protecting natural resources and can contribute to economic revitalization, and encourage tourism.  Such planning can be done as a component of a comprehensive plan or as a stand-alone plan. 

A greenway is a corridor of open space, and can take the form of a conservation greenway, recreational greenway, riparian buffer, landscape corridor, or greenbelt around a developed area.  Ideally, there will be a continuous system of greenways planned throughout the community. 

The network plan itself includes an inventory of existing resources, a vision, mapping of the network and destinations, and an action program to realize the vision.  The action program is critical to implementing the plan, and typically includes recommendations for zoning and subdivision and land development ordinance amendments to protect open space and facilitate completion of the trail system, official mapping of target open areas, recreational facilities, and trails, and other greenway preservation and trail construction strategies.

SSM can help you keep your community connected.

Read More
Newsfeed, Services Municipal Planni Patrick McCoy, PE, LEED AP, CSDP Newsfeed, Services Municipal Planni Patrick McCoy, PE, LEED AP, CSDP

For an Energetic and Strong Community: Let SSM be your Personal Trainer

Let SSM be your personal trainer. Take advantage of our experience to build a strong and healthy community park system.

Let us be your personal trainer. Take advantage of our experience to build a strong and healthy community park system.

Just like athletes follow a training regimen to keep their muscles strong, your community maintains its strength by developing a recreational plan with goals and measurable achievements. Your community is unique. The level of service you provide to your residents must be tailored to the appropriate range, quantity and quality of recreation facilities within your fiscal limits. Both active and passive opportunities are essential to the development and the maintenance of a strong community.

A trainer builds an exercise regimen based on the desired outcomes; specific exercises, targeted at muscle groups, elicit specific results. Your park system should work the same way. It is maintained and strengthened by integrating various park sizes and types to meet the specific needs of your community. The key to developing a strong park system is to determine your needs and then develop a plan that provides the appropriate types of recreational opportunities in the right locations.

Are you flexing the right park muscles to meet your community’s fitness plan?

  • A mini-park is used for isolated or limited recreational needs. These are small parks (less than an acre) and are found in a residential setting. These could be found in a subdivision or at a senior center or daycare center.
  • If the community muscle you need to flex focuses on informal active or passive recreation, then a neighborhood park may need to be added to your park system. The neighborhood park covers a larger area, ideally between 5 and 10 acres, serving a specific neighborhood of up to a half mile service area.
  • Community parks serve a broader purpose than neighborhood parks. These parks are designed to accommodate a variety of activity and community-based recreation needs. They typically are between 25 and 50 acres and serve two or more neighborhoods within a three mile service area.
  • Regional parks are generally large parks that draw visitors from a region or several communities that can be an hour or more away. These parks sometimes have historic significance or a unique attribute that make them special and often have a commercial component as well.

SSM can help you maintain your community strength by working with you to achieve your park and recreation goals.

Read More
Newsfeed, News, Services Source Water Eileen Kaley Newsfeed, News, Services Source Water Eileen Kaley

Source Water Plan Updates

If your source water protection plan was developed four or more years ago, new tools and technology can improve your plan and make a positive impact on source water protection.

Over the last 10 years, many community water systems participated in various source water protection programs offered by the PA Department of Environmental Protection. 

These programs provided free technical assistance for a rigorous delineation of multiple water sources, identification of potential sources of contamination, and the development of a professional plan to address water quality issues.  As these plans become older, many aspects of the plan become outdated or not applicable to current practices. If your plan was developed four or more years ago, new tools and technology can improve your plan and make a positive impact on source water protection.

SSM offers a menu of services that keeps your Source Water Protection Plan relevant to your system’s present needs.  By using technology advances such as improved Geographic Information Systems (GIS) capability and new publicly-available information, your plan can be on the cutting edge of protection strategies.

  • Enhanced groundwater and surface water computer modeling.  Is there a particular concern in your area?  SSM can use your plan delineation to model flow from a particular operation, or use a more rigorous computer model to track specific contaminants to your water sources.
  • Review and update potential sources of contamination (PSOC) inventory.  PSOCs can change quickly. Using updated databases, we will help you identify and analyze important changes in PSOCs that may affect your water sources. 
  • Resource extraction mapping for oil & gas wells and mining areas.  SSM can research unconventional well development in your area for the best protection of your groundwater sources.
  • Land-use analysis.  Current sources of information can help map existing non-point source activities in your protection zones, such as residential, agriculture, and industrial areas.
  • Review and add management options that update your system’s strategies for protecting your water sources.  Management strategies should be evaluated regularly to ensure they are effective in protecting your water sources.
  • Reinvigorate your steering committee.  SSM can assist with organizing and conducting strategy meetings that brings new ideas and partners together to improve your plan.
  • Contingency planning.  After the January 2014 contamination incident in the Elk River and other events , Disaster Planning is the new hot topic.  SSM staff can help develop partnerships with emergency responders and early warning networks through training and GIS assistance.
  • Update your plan components.  SSM can write an addendum to your existing plan, bringing all of your priorities and updates together in one, concise report.

 

Read More
Newsfeed, Source16 Eileen Kaley Newsfeed, Source16 Eileen Kaley

The Source - Spring 2016

regulatory and legislative updates, best practices, and new technologies for source water protection

regulatory and legislative updates, best practices, and new technologies.

 

What's Inside this Issue

  • Hydrogeologic Study Requires Robust Computer Modeling
  • Stormwater Modeling Software
  • Lower Allegheny Regional Partnership Stakeholders Meeting
Read More

Daniel R. Connolly, PE Joins SSM Group

Daniel R. Connolly, PE joins the firm as Senior Water and Wastewater Engineer.

SSM welcomes Daniel R. Connolly, PE as a Senior Water and Wastewater Engineer in the Water and Wastewater Engineering Department. Mr. Connolly will direct the firm’s water, wastewater and industrial process engineering and design efforts and will provide overall quality control/quality assurance oversight on all project initiatives. He has more than 25 years in the water and wastewater industry, serving a multitude of municipal clients on a wide variety of challenging and multi-faceted projects including both upgrades to existing systems and new facilities. His design experience includes process and engineering calculations, review of process equipment alternatives, selection of equipment and materials, preparation of sketches and schematics, process control concepts and instrumentation, development of specifications, coordination of work with other disciplines, preparation of construction cost estimates, and preparation of permitting applications to regulatory agencies. Bid and Construction phase experience includes response to bidder questions, review of bids, preparation of bid tabulation, review of submittals, response to contractor field questions, and construction progress meetings.

SSM Group, Inc. serves government, education, healthcare, industrial, and commercial clients in Pennsylvania, across the United States and in the Caribbean. SSM offers extraordinary experience in the planning, design, and construction management of wastewater and water systems, piping systems, pumping stations, and treatment plants. We offer solutions for tomorrow through far-sighted water and sewer infrastructure and environmental planning.

Read More

Carl D. Kline, Jr., LO Joins SSM Group

Carl D. Kline, Jr., LO joins the staff as a Senior Operations Specialist in the Water and Wastewater Engineering Services Department.

SSM welcomes Carl D. Kline, Jr., LO as Senior Operations Specialist in the Water and Wastewater Engineering Services group.

Mr. Kline will lead the firm’s water, wastewater and industrial treatment plant operations support efforts and will provide new equipment startup, process startup and training on all treatment plant related project initiatives. In addition, his responsibilities will include maintaining client contact and providing ongoing operational support services, advice, training, and troubleshooting, as may be required to assist client operations staff in maintaining treatment process efficiency, effectiveness and DEP compliance.

He has more than 40 years of experience in all aspects of water, wastewater, and public works. That experience includes responsible management of contracts, budgets, and personnel and associated operations, maintenance and safety programs. He has developed and maintains excellent relationships with clients, as well as federal, state, county, and local officials in Pennsylvania, Maryland, and Delaware.

SSM Group, Inc. serves government, education, healthcare, industrial, and commercial clients in Pennsylvania, across the United States and in the Caribbean. SSM offers extraordinary experience in the planning, design, and construction management of wastewater and water systems, piping systems, pumping stations, and treatment plants. We offer solutions for tomorrow through far-sighted water and sewer infrastructure and environmental planning.

Read More
Newsfeed, News, Services Buildings Patrick McCoy, PE, LEED AP, CSDP Newsfeed, News, Services Buildings Patrick McCoy, PE, LEED AP, CSDP

Building Safety Month

A three-part series exploring engineering and environmental issues supporting Building Safety. Topics include Electrical Safety, Poor Ventilation: Impact and Solutions, and Crane Structural Safety.

A three-part series exploring engineering and environmental issues supporting Building Safety. Topics include Electrical Safety, Poor Ventilation: Impact and Solutions, and Crane Structural Safety.

Building Safety

Safety in building construction traces to the Code of Hammurabi around 1750 BC, offering rather straightforward dis-incentives of re-work or death. A mere six rules pertained to damages due a builder for his failure to properly construct a home. Building and natural catastrophes like the Great Fire of London (1666), the Great Fire of Chicago (1871), 1906 San Francisco Earthquake, and more recent Hurricane Sandy led to voluminous developments to identify risks, create consistent standards, and changes to reflect new materials and methods.

The International Code Council’s (ICC) 2015 International Building Code contains slightly less than 700 pages; 35 chapters and 13 appendices, with the singular focus of providing a model for minimum acceptable safety standards to protect public health and welfare for every type of building occupancy. Modern codes go one step further and also provided minimum standards for sustainability related to energy consumption. And the IBC is just one of many standards and guidelines we work with in industrial, commercial, municipal projects.

Part 1: Electrical Safety

Opportunities for electrical faults and associated health risks to workers exist throughout industrial, municipal, and institutional facilities, with electrical distribution equipment and large equipment associated with manufacturing, process systems, research, HVAC, and central utility plants. The IBC by reference to the NEC (National Electrical Code) and NFPA (National Fire Protection Association) dictates that an electrical system be evaluated for Arc Flash hazards and that equipment be appropriately labeled according to the protection required. Hazards associated with electricity is a serious workplace hazard; The Electric Power Research Institute (EPRI http://www.epri.com/Pages/Default.aspx ) and National Institute for Occupational Safety and Health (NIOSH http://www.cdc.gov/niosh/)   have very good videos (https://www.youtube.com/watch?v=fZP47mlELSc and https://www.youtube.com/watch?v=-RkbMdaeq0o ) describing research into arc flash and stories by those affected by incidents.

Consider your building. Have you completed an ArcFlash Hazard Analysis for the facility? Do you have a defined electrical safety program and proper training and PPE for your employees? Does your electrical equipment have warning labels that comply with NFPA 70E, OSHA, or ANSI Z 535?

We can help. SSM supports numerous clients by performing comprehensive electrical distribution and equipment assessments; conducting short circuit analysis, time current coordination studies and identifying Hazards.

FOR MORE INFORMATION: Emerick Martin, PE, Senior Electrical Engineer

Part 2: Ventilation Design

Since man began using indoor fires for heating, ventilation of indoor air has existed, and still today the primary source of indoor air quality issues result from inadequate ventilation. Contemporary building contaminants, including VOC’s and synthetic fibers from building and furnishing materials; microbials, carbon dioxide, carbon monoxide, radon, asbestos, etc. can trigger discomfort, illness, allergic reactions,  and temperature and humidity both impact concentrations of certain contaminants. In broad terms, ventilation design involves natural ventilation, mechanical ventilation, or local exhaust.

Well designed and maintained HVAC systems provide thermal comfort while using outdoor air to ventilate, dilute, isolate, and exhaust odors and contaminants. The ICC, through The International Building Code (IBC), by reference to ASHRAE 55-2010, Thermal Environmental Conditions for Human Occupancy and; 62.1-2010, Ventilation for Acceptable Indoor Air Quality dictates comfort (temperature, humidity, air movement) and ventilation parameters. Comfort and ventilation standards have significantly evolved since the very early part of the 20th century when the first standards for thermal comfort and ventilation became requirements, to reflect changing patterns in building space use, outdoor pollutants, complex variety of chemicals and components in building and furnishing materials, energy conservation goals, to name a few. 

Building Standards will continue to transform especially in regards to ventilation, to resolve the seemingly disparate design goals for more ventilation and lower energy consumption. Particularly interesting developments for design integration of energy simulation and CFD (computational fluid dynamics) in the design process, and occupant-specific, dynamic systems, are promising.

FOR MORE INFORMATION: Bruce Bell, PE, Senior Technical Director, Mechanical and Plumbing Engineering

 

Part 3: Structural Alterations and Additions

The average building life cycle of non-residential structures extends many, many years. In fact, according to the US Energy Information Administration’s (EIA) 2012 report, Commercial Buildings Energy Consumption Survey, “commercial buildings remain in use for many decades. Although about 12% of commercial buildings (comprising 14% of commercial floorspace) were built since 2003, the commercial building stock is still fairly old, with about half of all buildings constructed before 1980; the median age of buildings in 2012 was 32 years.” It’s also true that within a short period of time, buildings become functionally unsuitable, or that facilities constructed for one product or purpose evolves to serve another.

So, distinct from normal operations and maintenance activities, continuous investment in research and development, production and logistics requires that alterations, additions, reuse, reallocation of space be permitted to comply with building safety standards, including structural codes. Like the applicable zoning, electrical, mechanical, plumbing codes, the structural codes are also updated to reflect new or better understood threats to building safety. For instance, it is important that new equipment installation for research or manufacturing tools be evaluated for foundation or floor structural capacity. Similarly, a comprehensive building structural analysis may be necessary with the installation of new overhead cranes or conveying equipment installation where there exists multiple generations of similar equipment; it’s not atypical to discover that over time and staff turnover, historical knowledge of the building changes are lost.

FOR MORE INFORMATION: Patrick McCoy, PE

Read More
Newsfeed, Presentations Eileen Kaley Newsfeed, Presentations Eileen Kaley

2016 PA Groundwater Symposium

Tackling Complexity through Stochastic Modeling

Tackling Complexity through Stochastic Modeling

A Hydrogeologic Study of the Gettysburg Basin

Tackling Hydrogeologic Complexity

  • Intermediate-scale geologic features exert a large influence on the groundwater flow patterns.

  • Suspected seasonal reversals of groundwater flow direction complicate the groundwater flow regime mapping.

  • Stochastic modeling techniques were employed to frame the unquantified variations inherent within this unique hydrogeologic system.

  • Source water protection zones were generated by aggregating thousands of flow simulations that meet observed criterion ranges.

FOR MORE INFORMATION:
Alfred Guiseppe, PG, Director Water Supply and Development

DOWNLOAD PRESENTATION HANDOUTS

 

2016 PA Groundwater Symposium: In celebration of National Drinking Water Week, Penn State Extension and the Pennsylvania Department of Environmental Protection along with numerous other sponsors presented the 2016 Pennsylvania Groundwater Symposium at the Ramada Inn Conference Center in State College, PA The Symposium theme, The Changing Climate of Groundwater, provided a forum for researchers, students, professionals and educators working in the groundwater field to exchange information and promote protection of groundwater resources throughout the state.

Read More

Sinkholes and Why They Matter

Sinkholes can be dangerous in many ways. They can cause damage to the foundation of a building, they serve as conduits for surficial contaminants to reach groundwater, and they can cause damage to buried services like water lines and electrical conduits according to Conserve Energy Future. Knowing the risk of sinkhole formation is key to minimizing possible damages.

Sinkholes can be dangerous in many ways.

Sinkholes can be dangerous in many ways.

MEASURING SINKHOLE POTENTIAL RISK

MEASURING SINKHOLE POTENTIAL RISK

Karst is defined as “a terrain, generally underlain by limestone, in which the topography is chiefly formed by the dissolving of rock, and which is commonly characterized by Karren, closed depressions, subterranean drainage, and caves” by the Geological Survey Water-Supply Paper 1899. Each component listed above (Karren, closed depressions, subterranean drainage, and caves) are considered karst features, but most importantly, sinkholes are considered karst features.

Sinkholes can be dangerous in many ways. They can cause damage to the foundation of a building, they serve as conduits for surficial contaminants to reach groundwater, and they can cause damage to buried services like water lines and electrical conduits according to Conserve Energy Future. Knowing the risk of sinkhole formation is key to minimizing possible damages.

Since the amount of karst features in an area can be related to the occurrence of sinkholes, an interactive sinkhole risk map was created using the density of karst features within a geologic formation.

Interactive Sinkhole Risk Map

The Interactive Sinkhole Risk Map provides access to searchable and interactive information such as karst density and geologic formations which contain carbonate rocks within Pennsylvania. The map displays only geologic formations in which the geologic unit contains carbonate rocks. There is the possibility of sinkholes forming in non-carbonate environments, but those situations were not considered in the making of this map. Explore the Interactive Sinkhole Risk Map to view the Sinkhole Risk for any location.

If a sinkhole evaluation of a location is desired, SSM Group, Inc. has multiple professionals on staff with years of experience in sinkhole risk evaluations. Feel free to contact SSM Group, Inc. to learn more.

Read More

PEDA 2016 Spring Legislative Conference

One third of the 1,200 US enclosed shopping malls are dead or endangered.

The Dying Mall: Reinventing Shopping Malls to Revitalize the Community

What’s to become of the shell of America’s shopping mall history?

Malls with high vacancy rates, low consumer traffic, no anchor store, or dated and deteriorating structures are considered ‘dead.’ Green Street Advisors report there are approximately 1,200 enclosed malls across the country and 15% of those malls will fail or be converted into non-retail space within the next 10 years. Online shopping, the recession, and demographic shifts are the key factors leading to this death toll. A change to the way we shop has led some mall owners to change the set-up of their mall, re-arranging like stores together, adding new anchors (like Apple stores) or new features (like daycare or children’s play areas) and changing the food court to a dining terrace with upgrades from fast food to sushi bars. While these approaches may save some shopping malls, the hard truth remains that many of these malls will not return to the glory of their past; but will instead close leaving behind a gigantic concrete shell on an island of macadam.

We'll be talking about the revitalization efforts at the PEDA 2016 Spring Conference!

Read More

A great time to explore Solar opportunities in PA

Why Solar Now in PA? Prices for solar systems have fallen by nearly 60% over the past five years. The lowered prices combined with incentives currently available make solar particularly attractive.

WHY NOW?
Prices for solar systems have fallen by nearly 60% over the past five years. The lowered prices combined with incentives currently available make solar particularly attractive

SSM Group, Inc and RER Energy Group, LLC are offering a seminar on solar photovoltaic energy for commercial, industrial, and municipal enterprises to explore the current opportunities in Pennsylvania.

WHO SHOULD ATTEND? The seminar will benefitbusiness owners, municipal officials, and all personnel who are responsible for managing electrical energy systems and associated costs.

ON THE AGENDA

Financial Incentives and Options
Federal Tax Credit: 30% of project costs
Accelerated Depreciation: 5 years (50% in the first two years)
Financing Options and PPA’s (Purchase Power Agreements)
Effective cost of energy for businesses: $0.03–$0.05 per kWh for next 25–35 years!

Technology Best Practices and Case Studies
Equipment and Installation Options
Utility Interconnection and Net Metering Considerations
Case Study Examples

Read More
Services, Newsfeed, Fact Sheet, Resource Patrick McCoy, PE, LEED AP, CSDP Services, Newsfeed, Fact Sheet, Resource Patrick McCoy, PE, LEED AP, CSDP

Snow and Your Roof

The snow is deep and as the weather begins to creep out of freezing, the addition of rain or snow melt into the mix can become a real threat. While all exposed roofs could be at risk, older flat roofs and roofs with poor drainage are the most susceptible to collapse due to snow.

With winter weather well under way, we can't help but raise our eyes to our roofs, and notice the snow piling up. The snow is getting deeper, and as the weather begins to creep out of freezing, the addition of rain or snow melt into the mix can become a real threat. While all exposed roofs could be at risk, older flat roofs and roofs with poor drainage are the most susceptible to collapse due to snow.

Newer roofs should have been designed for the minimum snow load as prescribed in the International Building Code, and the ASCE 7 – Minimum Design Loads for Buildings and Other Structures. Typically in the Berks County area, the design ground snow load is 30 pounds per square foot (PSF), which equates to just over 20 inches of dense snow. Additional snow load needs to be considered where snow from an adjacent sloped roof can slide onto a lower roof. Also, additional load from drifting snow must be considered when portions of the roof abut parapets, roof top equipment or higher roofs. Lastly, rain-on-snow surcharge can add 5 PSF for every inch of rain that is retained on the roof by the snow or poor drainage.

If you think your roof is at risk, you should contact a structural engineer to evaluate your roof condition. It may be necessary to remove some of the accumulated snow, clear roof drains, or provide temporary shoring to lessen the burden on the structural members. The removal of snow can be very dangerous, and is a job best left to a professional.

 
Read More

SSM Group, Inc. Announces Management Changes - Brian Kelly named President and CEO

SSM Group, Inc. recently announced a corporate management restructure. Brian R. Kelly has been named President and Chief Executive Officer of the firm. Kelly, who formerly served as the company’s Executive Vice President with responsibility of running the firm’s operations, replaces J. Carlton Godlove, II, who has left the company to pursue other interests.


Kelly is one of four McCoy family members who assumed control and management of the firm in 1996.  Kelly has an Associate Degree in Mechanical Engineering Technology from The Pennsylvania State University. Prior to joining the SSM management team, Kelly was employed at AT&T for more than 17 years in various roles. Kelly resides in Reading with his wife, Kay McCoy Kelly, who is a daughter of the company’s founder, Lewis J. McCoy, Sr. In a prepared statement, Kelly said, “I look forward to leading the company as we embark upon strategic growth and expansion.  I am very proud of our exceptionally talented senior leadership team and all of our employees, and I am confident that, with their help and support, we will continue to grow the company and succeed at fulfilling our corporate mission – ‘Enhancing the quality of life for our clients, our employees, and all of the people touched by our work.’  Our work is so important because it touches this generation and future generations with a scope broader than we can imagine – and it leaves a legacy that will live far beyond us.”

“Approximately six months ago we appointed a team of independent professionals to work with us as members of an Advisory Board:  Thomas A. Beaver, CPA, former managing partner at RKL; Patricia L. Langiotti, President of Creative Management Concepts; and Mike Shor, former executive with Carpenter.  These Advisory Board members have played a key role in helping us plan for our future,” Kelly said.

Kelly also announced that shareholder, Patrick M. McCoy, PE, has been promoted to Executive Vice President.  “Patrick will lead the company’s business development and sales and marketing efforts and he will be a strong right-hand man,” Kelly said.  Patrick McCoy has been with the firm since 1996.  He graduated from Drexel University, like his father, and holds Bachelor’s degrees in Civil Engineering and Architectural Engineering. McCoy formerly led the company’s Facilities and Site Engineering Division which provides services to worldwide companies such as IBM. Prior to joining SSM, he was with Ortega Consulting, Media, PA, and Gredell & Associates, Wilmington, DE. 

Shareholder Lewis J. (Lou) McCoy, Jr. of Reading, who joined the firm in 1985, will continue in his role as Director of Human Resources.

Catherine (Kitty) Bell, who joined the firm in 2004, is being promoted to Divisional Vice President. Formerly the firm’s Vice President of Facility Engineering, she assumes an expanded role, with additional management responsibility for Site Engineering and Survey and Data Capture disciplines (formerly managed by Patrick McCoy). Bell resides in Reading, PA.

SSM Group, Inc. is an engineering and consulting firm founded by Lewis J. McCoy, Sr. in 1967.  The company continues to be family owned and operated.  Headquartered at 1047 North Park Road in Wyomissing with satellite offices in Harrisburg and the Lehigh Valley,  SSM has just under 100 employees and provides services to various types of local, regional and national businesses that include commercial, industrial, manufacturing and telecommunications as well as healthcare and higher education institutions.  The company also provides services to numerous local, regional, and county government entities.  While the company’s primary market is a regional footprint including Berks County and the Lehigh Valley, SSM serves clients throughout PA and the Northeastern United States as well as to some international clients. 
 

FOR MORE INFORMATION:

Brian Kelly, President and CEO
brian.kelly@ssmgroup.com | P: 610-621-2000

Read More
News, Newsfeed Bruce Bell, PE, LEED AP News, Newsfeed Bruce Bell, PE, LEED AP

Tim East joins SSM Group

SSM welcomes Timothy East as Graduate Engineer in our Mechanical, Electrical and Plumbing Engineering Department. Tim is responsible for mechanical design and preparation of scope, plans, and specifications for industrial, commercial and institutional building projects. He received his BS in Mechanical Engineering from Wilkes University.

Read More
News, Newsfeed Eileen Kaley News, Newsfeed Eileen Kaley

Aaron Pysher, GIT Joins SSM Group

SSM welcomes Aaron Pysher, GIT as Graduate Geologist. Aaron is a Geologist-In-Training (GIT) responsible for field and technical support of various water resources projects including public water supply development, infiltration testing, sinkhole investigations, and groundwater modeling and analysis. He received his BS in Professional Geology from Bloomsburg University of Pennsylvania

Read More
Newsfeed, Source15 Eileen Kaley Newsfeed, Source15 Eileen Kaley

The Source - November 2015

Regulatory and legislative updates, best practices, and new technologies.

WHAT’S INSIDE

  • Unassessed Waters Project Successful in Berks County
  • Strategies for Successful Implementation
  • Consider the Source Campaign
  • New Faces in Sourcewater Protection
  • Good Water = Good Life
Read More
Resource, Services Municipal Engine, Newsfeed Mark Stabolepszy, PE Resource, Services Municipal Engine, Newsfeed Mark Stabolepszy, PE

DEP Offers Funding for Projects to Improve Local Water Quality by Reducing Stormwater Runoff

Grant Opportunity: Municipalities, including cities, boroughs, or incorporated towns within the Chesapeake Bay Watershed are eligible to apply.

Grants will fund urban stormwater best management practices in Chesapeake Bay Watershed

HARRISBURG, PA -- The Department of Environmental Protection (DEP) has opened a grant program to control urban stormwater and improve local water quality. Municipalities, including cities, boroughs, or incorporated towns within the Chesapeake Bay Watershed are eligible to apply.

“Urban stormwater runoff has a big role in local water quality, it’s so important to manage that stormwater properly to prevent pollution from reaching our waterways,” said DEP Secretary John Quigley. “These grants will serve as a valuable tool to enable local governments to improve their urban stormwater management and ultimately, their water quality and that of their neighbors downstream.”

The grants will fund construction of urban stormwater best management practices (BMPs) to reduce the discharge of nutrients and sediments delivered to local waterways, and ultimately, the Chesapeake Bay. Eligible projects include but are not limited to:
• Raingardens/bioretention
• Permeable pavement
• Urban stream restoration
• Urban tree planting
• Green roofs
• Wetlands and wet ponds

Projects must be complete within two years of grant award. Grants will be selected on a competitive basis.

The money for these grants is provided by the U. S. Environmental Protection Agency. There is $2,300,000 available for the grant program. The maximum funding amount per applicant is $200,000.

Projects cannot be associated with new development or for new detention basins. Projects must be within urbanized areas according to the latest Decennial Census in which National Pollutant Discharge Elimination System (NPDES) permit coverage is required for the discharge of stormwater from municipal separate storm sewer systems, or for discharges from combined sewer overflows through combined sewer systems.

Grant applications are due no later than October 9.

FOR MORE INFORMATION

COMMONWEALTH OF PENNSYLVANIA
Dept. of Environmental Protection
Commonwealth News Bureau
Room 308, Main Capitol Building
Harrisburg PA., 17120

CONTACT: Amanda Witman, DEP, 717-787-1323

CONTACT: Leif Rowles at lerowles@pa.gov or 717-783-2290.

SSM GROUP: Mark Stabolepszy, PE, Vice President Municipal Engineering and Planning

Read More