Insightful

Nanoparticle formation in combustion systems, including soot and some inorganic materials, is governed by interacting physical and chemical processes that are still not fully understood. We propose th... 좀 더 읽어보기

Through the generation of intense micro-turbulence and fine gas dispersion, Hydrodynamic Cavitation (HC) offers significant strategic advantages in the production of e-SAF (electro-Sustainable Aviatio... 좀 더 읽어보기

랩텍은 아바커스 마린 컨설턴트와 협력하고 있습니다. 이 그리스 회사는 특히 효율성 및 환경 보호 분야에서 복잡한 수리, 개조 프로젝트 및 기술 솔루... 좀 더 읽어보기

Based on hands-on experience in thermochemical conversion, combustion systems, reactive process design, and industrial consulting—supported by recent scientific findings—hydrodynamic cavitation (H... 좀 더 읽어보기

Drawing on my experience in thermochemical processes, combustion, reactive systems, and industrial consulting—as well as insights from the literature—I view hydrodynamic cavitation (HC) not only a... 좀 더 읽어보기

The Hellenic Institute of Marine Technology (HIMT) successfully organized the 19th Annual Marine Technology Conference at the Eugenides Foundation on December 9–10, 2025, RAPTECH was one of the GOLD... 좀 더 읽어보기

World of Bunkering - the magazin of The International Bunker Industry Association (IBIA) published an article about RAPTECHs cavitation technology for a sustainable fuel future in the maritime sector.... 좀 더 읽어보기

Hydrodynamic cavitation (HC) is an emerging, energy-efficient process intensification technology with potential to enhance efficiency, yield, and sustainability across key refinery operations. By gene... 좀 더 읽어보기

A Practical Step Toward Decarbonization, Insights from RAPTECH’s Cavitation Approach Decarbonization in the maritime sector is often described as a long journey, but for many shipowners it feels mo... 좀 더 읽어보기

Abstract: This study evaluates the effect of cavitation homogenization on heavy fuel oil (HFO 380) and its blends with biodiesel and glycerin for marine applications. HFO, HFO–20% biodiesel (B20), ... 좀 더 읽어보기

Sludge Formation in Marine Fuel Handling | Mechanisms, Impacts, and Cavitation-Based Mitigation HeavyFuel Oils (HFOs) and Intermediate Fuel Oils (IFO) are widely used as marine fuels due to their low... 좀 더 읽어보기

RAPTECH Managing Director Jürgen Gärtner is proud to announce that he is now a member of The International Bunker Industry Association (IBIA). We look forward to joint conferences and events. 좀 더 읽어보기

Hydrodynamic cavitation (HC) is emerging as one of the most promising enablers of sustainable wastewater treatment. RAPTECH’s CaviFlow® unit harnesses cavitation to intensify oxidation, mixing, sep... 좀 더 읽어보기

RAPTECH’s technology supports cleaner, homogenized fuels and lower costs as well assustainable fuel strategies for shipping. The marine bunkering industry faces stricter environmental rules, fuel d... 좀 더 읽어보기