Two distinct data categories support research on converting steel mill gases to methanol. Experimental data includes monitored gas phase species evolution from a single-channel micro reactor. Process simulation data contains annotated flowsheets, model summaries, stream results, and cost analysis calculations.
Use Cases
- Analyze catalyst performance using monitored gas phase species evolution data from micro reactor experiments.
- Validate process simulation models by comparing Aspen Plus V10 stream results and reactor performance outputs.
- Conduct techno-economic analysis using the provided cost analysis calculations for the BFG-to-methanol process.
- Optimize methanol production parameters by integrating experimental gas species data with process model summaries.
Strengths
- Contains two distinct, complementary data types: experimental catalyst performance and full process simulation.
- Includes annotated Aspen Plus V10 process flowsheet and detailed cost analysis calculations.
- Focuses on a specific industrial application: converting Blast Furnace Gas (BFG) to methanol.
Limitations
- Sample data and specific column definitions are unavailable, hindering immediate understanding of data structure.
- The experimental scope is limited to data from a single channel micro reactor.
- Lacks explicit metadata on file formats, data size, and row counts for quantitative assessment.
Provenance
- Source
- British Geological Survey (BGS), funded by the UKCCSRC 2018 Flexible Funding Call.
- Collection Method
- Combination of laboratory experiments in a micro reactor and process simulation using Aspen Plus V10 software.
- Time Range
- null
- Freshness
- null
- Geography
- null