Fact Snapshot
- Paper: Enhanced degradation of sulfamethoxazole by microwave-activated peracetic acid under alkaline condition: Influencing factors and mechanism
- Equipment: XH-100A
- Source: Separation and Purification Technology, 2022
- Research direction: Research application
- Core conditions: Temperature 60 ℃, Microwave power 500 W, Power 800 W, and Time 0.103 min
- Key results: SMX removal 94.2%, Degradation efficiency 6.2%, Degradation rate 1.39-fold, and Removal 21.0%
Research Abstract
Enhanced degradation of sulfamethoxazole by microwave-activated peracetic acid under alkaline condition: Influencing factors and mechanism was published in Separation and Purification Technology (2022) and is indexed as a Xianghu Q1 application case for XH-100A. The source record connects it with Research application. Core operating conditions include Temperature 60 ℃, Microwave power 500 W, Power 800 W, and Time 0.103 min. Key reported results include SMX removal 94.2%, Degradation efficiency 6.2%, Degradation rate 1.39-fold, and Removal 21.0%.
Research Background and Problem
Equipment Use and Experimental Conditions
| Item | Parameter |
|---|---|
| Temperature | 60 ℃ |
| Microwave power | 500 W |
| Power | 800 W |
| Time | 0.103 min |
Key Result
| Metric | Result |
|---|---|
| Removal | 94.2% |
| Degradation efficiency | 6.2% |
| Removal | 21.0% |
| Removal | 63.6% |
| Removal | 87.1% |
| Degradation rate | 1.39-fold |
Evidence Details
Activation-energy evidence: source values include 30 min, 21.0%, 96.0%, 94.2%, 0.107 min.
Equipment-detail evidence: source values include 800 W, 60 °C, 5 min.
Additional source evidence: source values include 500-800 W, 54-110 s, 60 °C, 5 min, 400 W, 8.4%, 51.8%, 64.9%, 40 °C, 80 °C, 0.210 min.
Microwave-method evidence: source values include 100 μM, 30 min, 87.1%, 67.7%, 80.3%, 64.3%, 72.1%, 58.3%.
Microwave-method evidence: source values include 150 mL, 5 μM, 250 mL, 500 W, 60 °C. Entities: XH-100A.
Activation-energy evidence: source values include 30 min, 63.6%, 100%, 0.454 min.
after 30 min of the reaction, 94.2% of SMX was degraded in the MW/PAA system. Meanwhile, 86.8% of SMX was degraded in the CH/PAA system.
Additional source evidence: source values include 6.2%, 0.5 mg, 2 mg, 0.00600 min.
Microwave-method evidence: source values include 0.107 min, 0.0770 min, 1.39 fold.
Additional source evidence: source values include 30 min, 94.2%, 39%.
Microwave-method evidence: source values include 400 W, 28.4 °C.
Composition evidence: source values include 30 min, 20.4%.
Additional source evidence: source values include 0.0262 min. Entities: R-C.
Time: 0.103 min
Mechanism / Method Highlights
- Method context: Temperature 60 ℃, Microwave power 500 W, Power 800 W, and Time 0.103 min.
- Activation-energy evidence: source values include 30 min, 21.0%, 96.0%, 94.2%, 0.107 min
- Equipment-detail evidence: source values include 800 W, 60 °C, 5 min
- Additional source evidence: source values include 500-800 W, 54-110 s, 60 °C, 5 min, 400 W, 8.4%, 51.8%, 64.9%, 40 °C, 80 °C, 0.210 min
- Reported outcome: SMX removal 94.2%, Degradation efficiency 6.2%, Degradation rate 1.39-fold, and Removal 21.0%.
Application Value
- Provides a peer-reviewed SoarNova / Xianghu Q1 application case for XH-100A.
- Supports English discovery around Research application.
- Preserves quantitative result evidence: SMX removal 94.2%, Degradation efficiency 6.2%, Degradation rate 1.39-fold, and Removal 21.0%.
- Maintains source-level evidence details: Activation-energy evidence: source values include 30 min, 21.0%, 96.0%, 94.2%, 0.107 min, Equipment-detail evidence: source values include 800 W, 60 °C, 5 min, Additional source evidence: source values include 500-800 W, 54-110 s, 60 °C, 5 min, 400 W, 8.4%, 51.8%, 64.9%, 40 °C, 80 °C, 0.210 min, and Microwave-method evidence: source values include 100 μM, 30 min, 87.1%, 67.7%, 80.3%, 64.3%, 72.1%, 58.3%.
Related Equipment
FAQ
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Which publication does this case come from?
Enhanced degradation of sulfamethoxazole by microwave-activated peracetic acid under alkaline condition: Influencing factors and mechanism
Separation and Purification Technology, 2022
DOI: 10.1016/j.seppur.2022.120716
