GeoTeknica
In support of global methane-reduction efforts and the broader decarbonization of the energy system, GeoTeknica has developed a next-generation, laser-based methane scanning and quantification camera capable of detecting very small leaks at significant distances. As natural gas increasingly replaces higher-carbon fuels and supports energy security, its climate benefit depends on minimizing methane emissions across the entire supply chain, including production, transmission, storage, distribution, and LNG infrastructure. Delivering scalable, accurate, and cost-effective methane monitoring across a large installed base is essential to preserving the climate advantage of natural gas while enabling responsible market growth. GeoTeknica’s system is engineered for rapid global deployment, leveraging low-cost, mass-produced telecom-grade optical components to enable economical scale-up across diverse facility types and geographic regions. The camera generates real-time methane plume imagery through high-speed laser scanning and features a wide field of view, fine spatial resolution, and high sensitivity. These capabilities enable precise localization and accurate quantification of emissions across complex industrial environments, including large transmission hubs and LNG facilities. Backed by a strong intellectual property portfolio, GeoTeknica applies Coherent Lightwave Technology to spectroscopic methane imaging. By leveraging fundamental wave properties of light—such as frequency, phase, interference, and coherence—this approach delivers significantly enhanced sensitivity and frequency selectivity compared with conventional optical methods. The result is a next-generation methane monitoring platform capable of detecting and quantifying emissions well below the thresholds of many existing automated systems. In addition to enhanced detection capability, the high specificity and accuracy of coherent laser sensing reduce false positives, improving confidence in identifying true methane emissions. This combination of scalability, precision, and operational reliability positions the technology as a key enabler of methane reduction across the global natural gas and LNG value chain, while supporting alignment with emerging international frameworks such as OGMP and EU measurement, reporting, and verification standards.
Nick Tzonev
CEO