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Hydroponic biodegradation apparatus
Model :T1200C
Product use
1. It can be used for biological degradation detection by activated sludge method;
2. It can be used for bio-based biodegradability test;
3. Meet the test standard of GB/T19276.2-2003;
4. Meet the test standard of GB/T33616-2017;
5. Meet the test requirements of GB/T40612-2021;
6. Meet the test requirements of GB/T40367-2021;
7. Meet the test standard of ISO14852-1999;
8. Meet the test standard of ISO19679-2020.
Product features
1. Fully meet the test requirements of GB/T 19276.2 standard;
2. The design method of water-based culture and open oxygen supply is adopted to simulate a strong aerobic environment;
3. 12 independent infrared detection, real-time online measurement of carbon dioxide release;
4. Wide detection range, the highest detection limit can reach 5000ppm;
5. Double display of carbon dioxide concentration and accumulation, which can be derived in the form of charts or curves;
6. Air bath temperature control, temperature adjustment accuracy ±0.1℃;
7. Magnetic stirring system: provide long time stirring;
8. Cloud platform detection, real-time online observation of data and curves.
Product principle
Bio-based materials, under the action of microorganisms, consume oxygen to decompose and produce carbon dioxide, water and other inorganic substances. The generated carbon dioxide is monitored in real time by high-precision infrared sensors. The percentage of the actual carbon dioxide release of the sample and the theoretical carbon dioxide release of the sample is the biodegradation rate.
Product parameters
1. Working conditions:
1.1 Power supply voltage: AC 220V±10% 50Hz single-phase;
1.2 Working temperature: 15 ~ 30℃;
1.3 Relative humidity: ≤ 80%;
2. Oxygen supply system
2.1 Air supply mode: continuous aeration oxygen supply, built-in air supply pump;
2.2 Air pump control: the air pump is divided into 12 channels, each channel has an independent switch;
2.3 Gas flow adjustment range: 50-300mL /min;
2.4 With 12 mechanical flowmeters to adjust the flow rate;
2.5 With 12 electronic flowmeters to collect flow rate;
3. Temperature control system:
3.1 Temperature control mode: air bath;
3.2 Set temperature range: room temperature -90 ℃, step by 0.1℃;
3.3 Temperature control accuracy :≤±0.1℃;
3.4 Temperature control box top sliding door, easy to operate;
4. Reaction system
4.1 Number of channels: ≥12;
4.2 Mixing method: 12 channels magnetic mixing;
4.3 Reaction mode: liquid reaction;
4.4 Volume of reaction bottle: 500ml;
4.5 Decarbonization system: Yes;
4.6 Condensing system: Yes;
5. Test the system
5.1 Detection method: infrared carbon dioxide detection;
5.2 Number of infrared probes: ≥12
5.3 Display mode: synchronous dual display of carbon dioxide concentration and total amount;
5.4 Detection range: 0-5000ppm;
5.5 Resolution: 1ppm;
5.6 Data collection cycle: up to 1 second once, seconds, minutes, hours can be freely selected;
6. Software control system
6.1 Software control system with independent intellectual property rights;
6.2 Software can collect data and generate real-time data curve;
6.3 Bearer system: professional operating system such as win7/8/10;
6.4 Data storage: It can be stored in real time in the experiment;
6.5 With a cloud platform, data can be accessed remotely;
6.6 USB ports: 3.
Standard configuration
Serial number |
name |
quantity |
unit |
remark |
1 |
host |
1 |
Taiwan |
|
2 |
Reaction flask |
24 |
entries |
|
3 |
Decarburization bottle |
24 |
entries |
|
4 |
Condensing bottle |
24 |
entries |
|
5 |
Dehumidifier bottle |
24 |
entries |
|
6 |
Connecting hose |
1 |
Set of |
|
7 |
software |
1 |
Set of |
|
8 |
Rando |
1 |
Set of |
|
Examples of experiments
This is the experimental result of determining the biodegradability of a sample by using T1200C hydroponic biodegradation instrument and referring to the method standard of GB/T19276.2-2003. The test period is 49 days. At the end of the test, the average degradation rate of cellulose is 89.41%, and the curve of various product groups is flat, and the growth is basically over. The experimental design and experimental results are as follows:
Table 1 Experimental design
|
1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
Inoculum |
300ml |
300ml |
300ml |
300ml |
300ml |
300ml |
300ml |
300ml |
300ml |
Cellulose |
|
|
|
2.0g |
2.0g |
|
|
|
|
A4 paper |
|
|
|
|
|
2.0g |
2.0g |
|
|
Sample 1 |
|
|
|
|
|
|
|
2.0g |
2.0g |
Figure 1 CO2 emission curve