Excess water on golf courses can ruin playability and turf quality. Traditional drainage systems often fall short, leaving courses prone to flooding or drought-like conditions. Exlterra's Groundwater Energy Passive System (GEPS) is changing this. Installed at the Rougemont-le-Château Golf Course in France, GEPS demonstrated its capacity to transform fairways, greens, and overall water management while reducing maintenance costs. How GEPS improves golf course drainage 1. Efficient water infiltration Exlterra GEPS increases soil infiltration rates, ensuring fairways and greens remain playable even after heavy rainfall. At Rougemont, 30mm of rain in 25 minutes left no lasting water stagnation—play resumed within an hour. 2. Drought Resistance During the 2022 drought, fairway 5 maintained a lush, green appearance without irrigation. Soil moisture levels remained stable between 35-45%, proving GEPS's ability to retain and regulate water effectively. 3. Minimal Installation Impact Unlike traditional drainage, GEPS is installed with minimal disruption. At Rougemont, no surface deformation occurred, and work was completed in under a week. Environmental and economic benefits Reduced Water Usage : GEPS cut water consumption by 50% on fairway 12. Fertilizer Savings : Fertilizer use dropped by 40%, while root systems deepened and strengthened. The future of golf course maintenance The results at Rougemont highlight the transformative potential of GEPS for golf courses worldwide. Beyond drainage, GEPS promotes sustainability, reduces costs, and improves turf quality year-round.

The Exlterra Nucleus Separation Passive System (NSPS) is setting a new standard in environmental technology by tackling one of the world’s most persistent challenges: radioactive soil contamination. Designed to accelerate radioactive decay using natural energy within the ground, this groundbreaking innovation offers a sustainable, chemical-free solution to contaminated sites. Tested in the Chernobyl Exclusion Zone under Project Hemera, Exlterra's NSPS demonstrates its ability to restore heavily polluted areas without disrupting the soil or introducing harmful substances. Discover how this transformative technology is reshaping the approach to environmental remediation. Harnessing nature to solve a global challenge The Exlterra NSPS system uses patented technology to redirect high-velocity particles naturally present in the soil. These particles, crucial in radioactive decay processes, are collected, accelerated, and funneled to break down radioactive isotopes. The result? A significant reduction in radiation levels over time without requiring soil excavation or chemical treatments. Passive Technology:  Operates without external energy sources. Environmental Safety:  Composed of polyethylene, the system is resistant to corrosion and abrasion, ensuring long-term reliability. Precision Installation:  Units are strategically placed to maximize efficiency and results. The science behind the system Radioactivity naturally decreases as isotopes decay, releasing energy in the form of positrons and other particles. NSPS captures and redirects these positrons to accelerate the breakdown of radioactive materials. The result is a sustainable, scalable solution for even the most severe contamination. A bold vision for restoration The Chernobyl Exclusion Zone, a symbol of environmental devastation since 1986, serves as the proving ground for Exlterra’s NSPS technology. Project Hemera aims to reduce radioactivity across a one-hectare test site, achieving measurable progress within six months and restoring natural radiation levels within five years. Installation highlights Site Preparation:  Clearing vegetation and preparing the soil. Precision Drilling:  Boreholes up to 18 meters deep ensure optimal placement. System Deployment:  Over 19 kilometers of NSPS units create a network for energy redirection. A sustainable future for contaminated sites Exlterra NSPS exemplifies innovation, sustainability, and effectiveness. By offering a practical and long-term solution to radioactive contamination, this technology paves the way for restoring ecosystems and unlocking the potential of previously unusable land. Explore more about the NSPS here .

Exlterra has achieved significant reductions in radioactive pollution at Chernobyl using its Nucleus Separation Passive System (NSPS). This technology leverages natural forces to decontaminate soil and air without chemicals or excavation. After seven months, soil radioactivity decreased by 37% and air radioactivity by 46%, as measured by the Ukrainian SSE Ecocentre.  Innovative technology: Nucleus Separation Passive System (NSPS) Exlterra's NSPS operates through a network of nearly 5,000 underground tubes of varying lengths and depths, strategically placed over a one-hectare area in the Chernobyl exclusion zone. This arrangement harnesses natural forces like gravity to accelerate the decay of radioactive particles, effectively reducing contamination levels.  Measurable success in Chernobyl Within seven months of implementing the NSPS, the Chernobyl test site experienced a 37% reduction in soil radioactivity and a 46% decrease in air radioactivity. These results, confirmed by the SSE Ecocentre, mark a significant advancement in decontamination efforts. Future implications Exlterra aims to achieve complete decontamination of the test site within 15 years, with the one-hectare area expected to be free of radiation pollution in soil and air within five years. This success opens possibilities for applying the NSPS technology to other contaminated sites worldwide, including Fukushima in Japan, potentially preventing ecological disasters by eliminating the need to discharge radioactive water into oceans. Learn more Explore Exlterra's innovative solutions and their impact on environmental remediation here . Read more Good News Network : "Revolutionary Technology Neutralizes Radioactivity Around Chernobyl by 47% – Using Only the Processes of Earth"  Good News Network The Optimist Daily : "Technology reduces Chernobyl’s radiation levels by 47%"  Optimist Daily NeozOne : "Tchernobyl : une entreprise suisse dévoile un procédé révolutionnaire pour décontaminer la zone d’exclusion"  Neozone Forschung und Wissen : "Start-up möchte Tschernobyl in Rekordzeit dekontaminieren"  Forschung und Wissen

Exlterra's Nucleus Separation Passive System (NSPS) represents a significant advancement in environmental remediation, particularly in addressing radioactive soil contamination. By leveraging principles from particle physics and nuclear energy, NSPS offers a chemical-free, non-intrusive method to accelerate the decay of radioactive isotopes in the soil. This article delves into the scientific mechanisms underpinning NSPS, elucidating its operation and effectiveness. Understanding radioactive decay Radioactive isotopes, or radionuclides, are unstable atoms that release energy through radioactive decay, transforming into more stable forms over time. This process emits various particles, including positrons—positively charged electrons. The rate of decay is typically slow, with some isotopes persisting for thousands of years, posing prolonged environmental hazards. The role of positrons in NSPS NSPS capitalizes on naturally occurring high-velocity positrons in the soil. These subatomic particles are products of certain types of radioactive decay and can interact with radioactive isotopes, facilitating their breakdown. By directing positrons toward radionuclides, NSPS accelerates the decay process, reducing the time required for decontamination. Mechanics of NSPS The system comprises a network of underground tubes installed at varying depths and patterns across the contaminated area. This configuration harnesses natural forces, such as gravity and the Earth's magnetic field, to guide positrons toward radioactive isotopes. The interaction between positrons and radionuclides results in annihilation events, converting the mass of these particles into energy and leading to the formation of stable atoms. Installation and operation Implementing NSPS involves strategically placing thousands of tubes in the affected soil. These tubes create pathways that facilitate the movement and concentration of positrons toward targeted areas. The passive nature of NSPS means it operates without external energy inputs, relying solely on existing environmental energies to function. Efficacy and results Field applications of NSPS, notably in the Chernobyl Exclusion Zone, have demonstrated significant reductions in radioactivity. Measurements indicate a 37% decrease in soil radioactivity and a 46% reduction in air radioactivity within seven months of installation. These outcomes suggest that NSPS can restore contaminated sites to safe conditions more rapidly than traditional methods. Advantages of NSPS Non-Intrusive:  NSPS does not require soil excavation, preserving the site's integrity. Chemical-Free:  The system avoids introducing additional chemicals, minimizing environmental impact. Sustainable:  Operating passively, NSPS utilizes natural energies, aligning with sustainable remediation practices. NSPS exemplifies an innovative application of particle physics in environmental engineering. By accelerating the natural decay of radioactive isotopes through the strategic use of positrons, NSPS offers a promising solution for decontaminating radioactive sites efficiently and sustainably. Its success in real-world scenarios underscores its potential as a pivotal tool in environmental remediation efforts. Further reading Exlterra's NSPS Technology in Chernobyl Technology Reduces Chernobyl’s Radiation Levels by 47%

An increasing number of golf courses worldwide choose Exlterra GEPS over traditional drainage With an increasing number of golf courses opting for GEPS over drainage systems, we have received invaluable feedback from greenskeepers. GEPS serves as a powerful tool in particular to streamline greenskeepers’ work. Mr. Thomas Olivier, greenskeeper at Rougemont-le-Château Golf Club near Mulhouse in France, meticulously collected data over two years to assess the impact of GEPS on his activities and cost savings. Mr. Olivier had already shared his initial observations with us. He has since divided them into four key areas: Water usage. Fertilizer usage. Mechanical operations. Sanding operations. The results are impressive: Irrigation has been reduced by  50%. Fertilizer usage has decreased by  30%. Mechanical aeration operations for decimation and aeration are  no longer necessary. Sanding operations are  no longer necessary. This translates into annual savings of approximately $2,000 per acre at the Golf of Rougemont. These results are the product of GEPS’ dynamic ability to rebalance moisture in the soil, promoting the absorption of rainwater during precipitations and maintaining optimum moisture levels in the topsoil during dry periods.

Great Lakes Hydrology Systems joins the Exlterra installer network We are excited to announce that Great Lakes Hydrology Systems has joined our network as an authorized installer of the GEPS technology in Michigan. This partnership is a strategic expansion designed to meet the increasing demand for GEPS – a revolutionary stormwater management system renowned for its efficiency and sustainability. Great Lakes Hydrology Systems is led by Ivan Katz, who is also the owner of Great Lakes Landscape Design in Oak Park, MI. With over three decades of experience in landscape design and stormwater management, Katz’s expertise will be invaluable in addressing Michigan’s water management challenges. Ivan Katz shares his enthusiasm: “Our clients frequently express concerns about persistent standing water and soggy yards. When I discovered GEPS, I was struck by its simple yet effective design, which not only addresses these issues permanently but also aligns with the growing preference for environmentally responsible, no-maintenance solutions. GEPS is truly a superior alternative to conventional drainage options.” We are proud to collaborate with such a reputable and seasoned partner as Great Lakes Hydrology Systems. This partnership underscores our commitment to supporting municipalities, sports facilities, and residential and commercial properties across Michigan with sustainable, high-performance stormwater solutions.

Exlterra and Convergent Water Technologies forge strategic partnership Exlterra is thrilled to announce a strategic partnership with Houston-based Convergent Water Technologies (CWT) to promote its GEPS stormwater technology across the U.S. to architecture, engineering, and construction (AEC) specifiers. This collaboration positions Exlterra to significantly enhance our engagement with this crucial market segment, leveraging CWT’s expertise and leadership in stormwater management solutions. “I’ve been waiting for this moment for nearly 10 years,” says Bob Adair, CEO of Convergent Water Technologies. “I’ve watched from the sidelines as Exlterra grew and the product set matured. At this point, it’s a great fit for the national stormwater market and the timing is perfect for Convergent and its network of Value-Added Resellers to bring our expertise and relationships into play to accelerate Exlterra’s growth in the architecture, engineering & construction space. What makes GEPS unique is its ability to address a wide range of stormwater challenges in a simple and sustainable way. This technology is poised to revolutionize our industry, and we couldn’t miss the opportunity to be part of it.” At Exlterra, we are honored to be endorsed by CWT, a consistent innovator in stormwater management. CWT will act as a catalyst for our growth, tapping into a market that increasingly demands solutions that are sustainable, easy to use and cost-effective. We are excited to meet those demands with GEPS, which checks all the boxes.

Exlterra's CEO Frank Muller (right) with the Oakland County Business executive On March 20, 2024, Exlterra was honored to attend the Oakland County 2024 Business Spotlight & Reception, an annual event that celebrates and highlights exemplary businesses in Oakland County. This prestigious gathering, organized by Oakland Thrive and Oakland County Economic Development, and chaired by Oakland County Executive Dave Coulter, took place at the Royal Oak Farmers Market in Michigan. Exlterra was humbled to receive recognition as a thriving enterprise at this event. This acknowledgment is a direct result of our employees’ dedication and hard work. Our commitment to developing groundbreaking environmental technologies that are innovative, sustainable, and effective has resonated with the community. We extend our gratitude to Oakland Thrive for this distinguished recognition and to our employees for their tireless efforts. This honor motivates us to continue innovating and contributing to the vibrant and inclusive economy of Oakland County. As we look to the future, we are excited to see how our technologies and the support of organizations like Oakland Thrive will continue to shape a more sustainable and prosperous community.