HTY-BDA24 Biodegradation Analyzer Introduction: The experimental material is mixed with the inoculum and placed in a reactor. The mixture undergoes a strong aerobic biodegradation process under set temperature, humidity, and oxygen rich conditions. The experimental materials undergo microbial degradation reactions to produce carbon dioxide, water, mineralized inorganic salts, and new biomass. The system is equipped with sensors to continuously monitor or regularly accumulate the emitted carbon dioxide gas, and measure the amount of carbon dioxide generated during the test process. Finally, the software was used to calculate the ratio of the actual cumulative amount of carbon dioxide generated by the experimental material in the experiment to the theoretical amount of carbon dioxide that the material can generate, which is the percentage of biodegradation. characteristic: 1. Multiple detection systems can be selected, such as NDIR optics, TDLAS optics, conductivity, weighing, etc. 2. There are multiple modes available for monitoring carbon dioxide during the degradation process, including real-time continuous monitoring and timed accumulation monitoring. 3. The degradation process control is unmanned throughout the entire process, with PC and mobile devices linked. 4. Multi channel, modular design, capable of accommodating more than 24 degradation reactors. Each reactor is equipped with an automatic mixing device as standard, which can achieve regular and timed automatic mixing without manual intervention. 5. The system adaptively adjusts various variables, including flow rate, temperature, oxygen content, etc., and sends abnormal alarms in real-time to the mobile terminal of the mobile phone. 6. Precision temperature and humidity control: air bath temperature control, temperature setting range of room temperature~70 ℃, temperature adjustment accuracy of ± 1 ℃; Humidity monitoring: 10%~90% RH. 7. PC software control, data graphing, and detection data support multiple formats for output. 8. Unique compost activation technology and microbial capacity measurement technology. 9. Modular design, with 12 bit channels as the smallest unit, 24, 36, 48... can expand channels infinitely. 10. Software control, data graphing, and detection data support multiple formats for output. Technical parameters: Cultivation method: 58 ℃ controllable composting biodegradation Temperature control range: Room temperature:~70 ℃ ± 1 ℃ Carbon dioxide detection method: infrared NIDR method/TDLAS method/conductivity method optional Carbon dioxide monitoring mode: online continuous carbon dioxide detection/cumulative DIC detection optional Number of channels: 24 or more Reactor capacity: 3L with automatic mixing device Software and System: PC Control Tailin MUTIL Software Temperature and humidity monitoring: -50 ℃~100 ℃, humidity: 0~90% RH Oxygen monitoring: electrochemical oxidation monitoring Gas flow monitoring: automatic control of mass flow rate from 0.01 to 1000mL/min Carbon dioxide gas collection: sodium hydroxide solution Detectable objects: various biomass materials Applicable standard: GB/T19277.1 Alarm signal: linkage between PC and mobile devices Overall power: 2000W Power supply: 220VAC, 50/60Hz Size: 1350mm × 450mm × 1700mm; Weight: 210KG;
Introduction: The experimental material is mixed with the inoculum and placed in a reactor. The mixture undergoes a strong aerobic biodegradation process under set temperature, humidity, and oxygen rich conditions. The experimental materials undergo microbial degradation reactions to produce carbon dioxide, water, mineralized inorganic salts, and new biomass. The system is equipped with sensors to continuously monitor or regularly accumulate the emitted carbon dioxide gas, and measure the amount of carbon dioxide generated during the test process. Finally, the software was used to calculate the ratio of the actual cumulative amount of carbon dioxide generated by the experimental material in the experiment to the theoretical amount of carbon dioxide that the material can generate, which is the percentage of biodegradation.
