March 2021 will mark the thirtieth annual gathering of environmental professionals for the Conference on Soil, Water, Energy, and Air. For the past twenty-nine years, this annual conference has helped bring the environmental science community closer together by providing a forum to facilitate the exchange of information of technological advances, new scientific achievements, and the effectiveness of standing environmental regulation programs. The 30th International Conference on Soil, Water, Energy, and Air and AEHS Foundation Semi-Annual Meeting offers attendees an opportunity to exchange findings, ideas, and recommendations in a professional virtual setting. The strong and diverse technical program is customized each year to meet the changing needs of the environmental field.
Platform and poster sessions feature research, case studies, and the presentation of new programs. Virtual exhibit booths will augment the conference program bringing applied technology to attendees. Focused workshops provide attendees with practical information for immediate application. Socials and networking events will provide opportunities for rich discussion.
The virtual conference will be fully recorded and available for attendees to review or watch missed sessions through July 31, 2021.
The Industrial Environmental Association (IEA) and California Manufacturers and Technology Association (CMTA) will host their 36th Annual Environmental Training Symposium and Conference virtually, September 29 to October 1, 2020.
With a theme of Science Driven Environmental Leadership, the virtual conference includes 12 live educational sessions, an exhibit hall with interactive booths, recorded presentations, and three live networking sessions that will be accessible to vendors, panelists, and attendees. Live sessions and recorded presentations will cover air, hazardous materials, health & safety, sustainability, and water, featuring expert speakers from Southern California.
Presentations will fall within the following tracks: Water, Sustainability, Air, Hazardous Materials, Health & Safety, and General Sessions.
Since 1985, the IEA & CMTA Annual Environmental Conference has brought together compliance professionals, regulatory and legislative leaders, and excelled in providing a balance of valuable information that includes environmental compliance guidance, and regulatory and legislative updates.
Please visit Conference.IEACA.org to learn more and register!
The Society of American Military Engineers recognized SCS Engineers for their 15 years of service and volunteer support at the District of Columbia post this month. The award was presented by Commander Craig Clutts of the US Navy, the Outgoing DC Post President.
On hand to receive the award for SCS was John Tabella, PG, LEED AP®, National Expert for Environmental Due Diligence and for Federal Services; Heather Blake (pictured), Federal Marketing Coordinator, and Dave Hostetter, PE, LEED AP®, and CEM at SCS Engineers.
SCS Engineers has a very long track record of solving environmental and energy management, solid waste, hazardous waste, water, and air compliance challenges. Approaches we pioneered include risk-based cleanups, voluntary cleanups, accelerated investigations, presumptive and sustainable remedies, environmental management systems, energy systems, and waste minimization. These approaches are at the forefront of local and Federal environmental and energy programs today.
SCS provides professional engineering and scientific services with a focus on environmental protection and conservation of resources. Our clients come back because we find practical approaches to even the most complex environmental challenges.
As more and more landfill closure projects were built using geomembranes as the final cover barrier layer over the past 20 years, the issue of handling water in the final cover drainage layer became more prominent. Precipitation on closed portions of a landfill leaves the landfill basin in three ways: (1) runoff; (2) percolating into the final cover upper soil layer and then evaporating back out into the atmosphere by evapotranspiration; and (3) percolating into the final cover upper soil layer and reaching the final cover drainage layer, flowing through the drainage layer to the bottom of the landfill slope, and leaving the landfill basin through discharge points to the landfill perimeter ditch. Addressing the runoff component is relatively straightforward because for decades engineers have been designing various types of conveyance systems to handle surface water runoff. Mother Nature takes care of the second component.
The third component, however, took many years to be engineered properly. SCS developed one of the best-engineered systems over 18 years ago and perfected the design over the following five years. The perfected design has been incorporated into the permits of many landfills and implemented at many closure construction events. As a commitment to the efficiency of the design, SCS has been monitoring the performance of many of these closure projects during rain events to gather data and ensure that nothing unexpected occurs during the more severe storm events.
SCS’s system involves a perforated collection pipe embedded in gravel, wrapped in geotextile, and placed in a depression created by a geomembrane flap near the bottom of the slope. The geomembrane flap is welded to the final cover geomembrane and supported in a depressed shape by the upper soil layer of the final cover system. The drainage layer geocomposite ends at the bottom of the depression, delivering the water in the geocomposite into the pipe-gravel-geotextile positioned inside the depression. Installation of the geomembrane flap is at a sloping grade; therefore, the collection pipe ends up sloping toward a low point where a drain pipe that is perpendicular to the perforated pipe takes the water out of the depression and delivers it to the landfill perimeter ditch. The system is fairly easy to install and almost guarantees proper removal of water from the final cover drainage layer. Although other engineers have designed many varieties of such systems, the SCS system has a proven track record with no glitches or side effects at the bottom of the landfill slope.
Some other systems, because of the inherent shortcomings in the design, either don’t remove all of the water from the geocomposite drainage layer, or they clog at the discharge point. Sometimes the water coming through the system adversely affects other landfill components, such as the perimeter berm integrity. Additionally, complexities during construction of the system can conflict with the storm water down chute pipes or landfill gas pipes that may exist above the cover system geomembrane.
In addition to writing the SCS Engineers blog series SCS Advice from the Field, Dr. Khatami speaks about SCS blog topics at SWANA national and local chapter conferences. His webinar Design Leachate Collection Pipes to Eliminate Clogging of Geotextiles will be presented on June 29, 2016. Use the links below to learn more about Dr. Khatami’s advanced landfill designs which last longer and help prevent common operational challenges over time.
Ali Khatami, Ph.D., PE, LEP, CGC, is a Project Director and a Vice President of SCS Engineers. He is also our National Expert for Landfill Design and Construction Quality Assurance. He has nearly 40 years of research and professional experience in mechanical, structural, and civil engineering.
Dr. Khatami has acquired extensive experience and knowledge in the areas of geology, hydrogeology, hydrology, hydraulics, construction methods, material science, construction quality assurance (CQA), and stability of earth systems. Dr. Khatami has applied this experience in the siting of numerous landfills and the remediation of hazardous waste contaminated sites.
Dr. Khatami has been involved in the design and permitting of civil and environmental projects such as surface water management systems, drainage structures, municipal solid waste landfills, hazardous solid waste landfills, low-level radioactive waste landfills, leachate and wastewater conveyance and treatment systems. He is also involved in the design of gas management systems, hazardous waste impoundments, storage tank systems, waste tire processing facilities, composting facilities, material recovery facilities, landfill gas collection and disposal systems, leachate evaporator systems, and liquid impoundment floating covers.
If you are looking to design a final cover for your landfill, please contact SCS. We will review your particular needs and the existing conditions at your facility and will recommend a proper design that suits your site conditions. SCS will also provide you with construction recommendations and an estimate for construction of the system. Furthermore, SCS will gladly incorporate the final design into your facility permit and prepare construction drawings for implementation of the system.