The application of the Hash AT1000 titrator in biogas engineering demonstrates its important role in the field of bioenergy. FOS TAC, as a key parameter for monitoring the fermentation process in biogas generators, has been widely used in Europe to prevent acidification or ammoniation hazards in biogas reactors. Although pH is commonly used to monitor the acidification of biogas generators in China, due to the high alkalinity, the change of pH lags behind the FOS concentration, so it is not timely and effective.
The Rural Energy Research Center of the Institute of Agricultural Application Microbiology of a provincial Academy of Agricultural Sciences is committed to the energy utilization of rural organic waste, and innovatively uses a hashed AT1000 titrator for monitoring in biogas engineering. The project mainly treats pig manure, with a daily output of 300m of biogas and a daily power generation of 450 kWh. The FOS TAC application package of the hash AT1000 was used for monitoring, which effectively improved the stability of the anaerobic fermentation tank operation.
Application features of the AT1000 include:
A simple and efficient monitoring method: The FOS TAC Application Kit with the PHC805 RedRod electrode enables rapid and accurate analysis of the initial pH, volatile organic acids (VFA), alkalinity, and ratio of the two (FOS TAC) of samples.
Low cost and easy to operate: Compared to high-cost instruments such as chromatography, the AT1000 titrator has the advantage of low cost and simple operation. The sample preparation is simple and does not require distillation pretreatment, which is suitable for daily analysis in biogas engineering laboratories.
Fast response and high stability electrode:p HC805 RedRod electrode has the characteristics of fast response, good stability and high repeatability, which provides accurate data support for biogas engineering.
The FOS TAC application package for the AT1000 is not only suitable for biogas projects, but also for anaerobic digestion processes in the paper, petrochemical, food and beverage industries. This case demonstrates the potential of AT1000 in a wide range of industries, especially in the field of bioenergy, providing users with an efficient and cost-effective solution to better manage and control the operation of biogas generators, ensuring production efficiency and product quality.