Energy project

AAIL, a long-standing British company that has been in the asphalt construction industry for over a century, has thoroughly tested and confirmed the effectiveness of the ACF™-D diesel combustion catalyst developed by Korea Jintech. This verification process spanned over a year and involved examining its applicability to various projects, including the construction of runways at Heathrow Airport and highways.

The initial experiment underwent a thorough assessment conducted by Envirocare, an external and impartial organization. Alongside achieving a significant enhancement in burner efficiency by over 18%, noteworthy impacts were observed on greenhouse gases such as CO, CO2, NOx, and SOx.

Teesside University in the UK, an external institution known for its expertise in this field, conducted an evaluation on the second test using standard research methods and equipment. This evaluation confirmed that when ACF™-D is utilized with diesel fuel, there are notable enhancements in combustion efficiency and reductions in greenhouse gas emissions.

OCI SE Co., Ltd., a company involved in the generation of electricity, steam, heating, and cooling, has assessed and provided Korea Jintech's ACF™-CW combustion catalyst for coal/wood pellet horn fuel. OCI SE Co., Ltd. operates a highly sustainable cogeneration power plant, known for its eco-friendly practices within the industry.

In order to guarantee the dependability of ACF™-CW, an assessment was carried out by the Korea Energy Research Institute to determine its corrosive properties. This preliminary test verified that there were minimal clinker deposits and that they could be easily removed during routine boiler inspections. Further evaluation is currently being conducted.

We have long been collaborating with prestigious universities in China to prepare for the evaluation of coal power plants. Moreover, we have submitted a patent application and successfully obtained registration for ACF-C, a coal combustion catalyst, in China.

During our study, we carried out a hands-on experiment at Zundadenchang, a government-run power plant situated in Inner Mongolia.

Based on the information provided in the report, it can be concluded that there have been significant improvements in several indicators, including the ash content, volatile content, and moisture content. These findings will now serve as the basis for our plans for the upcoming test.

We conducted an assessment on ACF-C for coal-fired power plants operating in Mongolia. As part of the evaluation process, a diluted combustion catalyst was sprayed and uniformly blended with coal on the conveyor belt.

To summarize, the efficiency of the boiler's combustion improved by over 7%, resulting in a 12.3% reduction in fuel consumption. Additionally, there was a decrease of approximately 20% in emissions of NOx, SOx, and fine dust particles.

The evaluation of the new technology was not only conducted on stoves in Gers, which are traditional houses in Mongolia, but it also demonstrated enhanced combustion efficiency and a substantial decrease in fine dust. These advancements have proven to be crucial in safeguarding respiratory health and preventing pollution.