Niumag Showcases Excellence | Niumag Shines at the 2nd International Frontiers Forum on Earth Energy: Empowering Green Exploration with Low-Field NMR Technology

From April 10 to 13, 2026, the 2nd International Frontiers Forum on Earth Energy was grandly held in Zhengzhou, Henan Province. Experts, scholars, researchers, engineers, and young talents from the global energy sector gathered to discuss the future development directions of earth energy, promote deep interdisciplinary integration of geology, engineering, materials, information technology, and more, and empower self-reliance and technological strength in energy science.

Under the theme “Green, Intelligent, and Sustainable,” the forum covered multiple fields including oil and gas exploration and development, new energy technologies, carbon capture and storage (CCS/CCUS). Several specialized parallel sessions were organized, featuring academic presentations and exchanges from renowned universities, research institutes, and enterprises both domestically and internationally.

With over 20 years of dedication to low-field nuclear magnetic resonance (LF-NMR) technology, Niumag Analysis has consistently focused on the cutting-edge developments and pain points of the earth energy industry. To effectively empower technological breakthroughs in the sector, Niumag participated in the conference through an exhibition booth, showcasing the innovative application value of LF-NMR technology in energy exploration and development. Taking this opportunity, Niumag aims to contribute tangible technical strength to scientific research and engineering practices in reservoir evaluation, petrophysical property analysis, unconventional energy development, and more, while jointly pursuing a green and intelligent sustainable development path with the industry.

Leveraging its fast, non-destructive, and green advantages, Niumag’s low-field NMR technology has been deeply integrated into multiple critical stages of earth energy exploration and development.

In the field of unconventional energy, this technology clearly reveals the adsorption/desorption mechanism of methane gas, enables dynamic characterization of hydrate formation and dissociation, and accurately evaluates supercritical CO₂ fracturing performance.

For reservoir physical property analysis, it efficiently performs porosity and pore size distribution testing, oil/water saturation measurement, movable and irreducible fluid saturation assessment, as well as providing key parameters such as permeability and wettability evaluation.

In oil and gas reservoir development evaluation, the technology extends to quantitative fracture development analysis, online testing of polymer flooding and miscible gas flooding, and comprehensive assessment of triaxial compression damage and reservoir stimulation effects.

Moreover, in response to low-carbon transition demands, the technology supports in-situ simulation for CCUS/CCS carbon sequestration, comprehensively assisting efficient, green, and intelligent energy development.

Under the wave of energy transition, efficient, intelligent, and green exploration and development technologies serve as the core driving force for industrial upgrading. Niumag will continue to deepen its expertise in the low-field NMR field, continuously refining detection and analysis tools for the energy sector, providing reliable scientific research equipment support for the quality improvement and efficiency enhancement of traditional fossil energy, breakthroughs in unconventional energy, and the development of low-carbon technologies such as CCUS.

Niumag’ s presence at the Zhengzhou forum represents both a concentrated demonstration of its technological strength and an important opportunity to deepen cooperation with global energy peers. Moving forward, Niumag will continue to base itself on innovation in low-field nuclear magnetic resonance (LF-NMR) technology, deeply align with the needs of the energy industry, promote interdisciplinary integration, and use advanced detection technology to facilitate efficient development and low-carbon utilization of earth energy, contributing to national energy security and the achievement of the “dual carbon” goals.