Data and Code for Wenjing Su PhD Dissertation in Energy and Mineral Engineering

The data and code is for Wenjing Su's PhD dissertation in Energy and Mineral Engineering department with the title of Resilience Modeling of Interdependent Electric Power and Natural Gas Network. The data consists of test models (Belgium natural gas network with IEEE 14 bus network, Northeast US electric power and natural gas network), as well as the optimization model output data. The code for data processing, optimization and visualization is mostly written in python.

Citation

Su, Wenjing (2024). Data and Code for Wenjing Su PhD Dissertation in Energy and Mineral Engineering [Data set]. Scholarsphere.

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Work Title Data and Code for Wenjing Su PhD Dissertation in Energy and Mineral Engineering
Access
Open Access
Creators
  1. Wenjing Su
Keyword
  1. Energy System Resilience
  2. Electric Power and Natural Gas Modeling
  3. Power System Modeling
  4. Geographically Correlated Failures
License In Copyright (Rights Reserved)
Work Type Software Or Program Code
Publication Date 2024
Language
  1. Python
  2. GAMS
Geographic Area
  1. Belgium
  2. Northeastern United States
Related URLs
Deposited March 21, 2024

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Work History

Version 1
published

  • Created
  • Updated
  • Updated Keyword, Language, Geographic Area, and 3 more Show Changes
    Keyword
    • Energy System Resilience, Electric Power and Natural Gas Modeling, Power System Modeling, Geographically Correlated Failures
    Language
    • Python, GAMS
    Geographic Area
    • Belgium, Northeastern United States
    Related URLs
    • https://pure.psu.edu/en/publications/joint-planning-of-natural-gas-and-electric-power-transmission-wit, https://www.sciencedirect.com/science/article/pii/S0951832024001248?dgcid=coauthor, https://dblp.org/rec/conf/hicss/SuBW24.html
    Description
    • The data and code is for Wenjing Su's PhD dissertation in Energy and Mineral Engineering department with the title of Resilience Modeling of Interdependent Electric Power and Natural Gas Network. The data consists of test models (Belgium natural gas network with IEEE 14 bus network, Northeast US electric power and natural gas network), as well as the optimization model output data. The code for data processing, optimization and visualization is mostly written in python.
    Publication Date
    • 2024
  • Added Creator Wenjing Su
  • Added gcf_nodal.py
  • Added Base_network_visualization.py
  • Added Post_processing_visualization.py
  • Added Post_processing_nodal_visualization.py
  • Added rf_nodal.py
  • Added rf_nodal_debug.py
  • Added debug_ic.py
  • Added gcf_nodal_cf4.py
  • Added Post_processing_visualization_cf4.py
  • Added Post_processing_visualization_cf2.py
  • Added Post_processing_nodal_visualization_cf4.py
  • Added gcf_nodal_cf3.py
  • Added gcf_nodal_cf2.py
  • Added gcf_nodal_cf1.py
  • Added Post_processing_nodal_visualization_cf.py
  • Added Post_processing_visualization_cf.py
  • Added busdata.py
  • Added Belgium_city_GeocodeAddresse10.shp.xml
  • Added AD_6_Country.shp.xml
  • Added README.txt
  • Added belgian.json
  • Added AD_6_Country.cpg
  • Added AD_6_Country.dbf
  • Added AD_6_Country.prj
  • Added AD_6_Country.sbn
  • Added AD_6_Country.sbx
  • Added AD_6_Country.shp
  • Added AD_6_Country.shx
  • Added Belgium_city_GeocodeAddresse10.cpg
  • Added Belgium_city_GeocodeAddresse10.dbf
  • Added Belgium_city_GeocodeAddresse10.prj
  • Added Belgium_city_GeocodeAddresse10.sbn
  • Added Belgium_city_GeocodeAddresse10.sbx
  • Added Belgium_city_GeocodeAddresse10.shp
  • Added Belgium_city_GeocodeAddresse10.shx
  • Added events_rf.csv
  • Added events_gcf.csv
  • Added power_node_location.csv
  • Added belgium_de_nc.py
  • Added gcf_pool3_new copy.py
  • Added belgium_de_nc_0831.py
  • Added post_de_gcf.py
  • Added belgium_de_nc_bc.py
  • Added post_pool_gcf_new.py
  • Added belgium_de_gas.py
  • Added belgium_de_power.py
  • Added alfa_gcf.m
  • Added post_pool_gcf_new_gas.py
  • Added post_pool_gcf_new_power.py
  • Added gcf_pool100_power.py
  • Added gcf_pool100_gas.py
  • Added post_alfa_gcf.py
  • Added gcf_pool100.py
  • Added gcf_pool3_new.py
  • Added generate_gcf_events.py
  • Added post_pool_gcf.py
  • Added alfa_rf.m
  • Added belgium_rf_pool3.py
  • Added DE_rf.py
  • Added generate_scenario_rf.py
  • Added post_alfa_rf.py
  • Added post_de_rf.py
  • Added post_pool_rf_new.py
  • Added post_pool_rf.py
  • Added rf_pool100_new.py
  • Added rf_pool100.py
  • Added padd.txt
  • Added power_ne.txt
  • Added tadd.txt
  • Added de_base10.gms
  • Added de_base15.gms
  • Added visualize_neus_system.py
  • Added visualize_gcf_events.py
  • Added generate_nminusk_scenarios.py
  • Added neus_nminusk.sh
  • Added ne_us_joint_system_function_n_1_applyasync_stress.py
  • Added ne_us_joint_system_function_debug.py
  • Added optimization_multiprocess_applyasync_nminusk.py
  • Added optimization_multiprocess_applyasync_nminus1.py
  • Added optimization_multiprocess_applyasync_nminus1_stress.py
  • Added optimization_multiprocess_applyasync_demand_increase.py
  • Added optimization_multiprocess_applyasync_transmission_reduction.py
  • Added optimization_for_9_topologies.py
  • Added submit_n_1_stress.sh
  • Added ne_us_joint_system_function.py
  • Added submit_n_1_sequential.sh
  • Added ne_us_joint_system_function_stress.py
  • Added optimization_for_9_topologies_stress.py
  • Added debug_gurobi.py
  • Added optimization_for_n_1_multiprocess_applyasync.py
  • Added calculate_gas_power_dependency.py
  • Added ne_us_joint_system_function_n_1_applyasync.py
  • Added preprocess_neus_data.py
  • Added optimization_for_n_1_multiprocess_map.py
  • Added optimization_for_n_1_with_options.py
  • Added collab_single_test.sh
  • Added ne_us_joint_system_function_baron.py
  • Added optimization_no_click.py
  • Added sequential_python_slurm.sh
  • Added test_shell.sh
  • Added test_shell2.sh
  • Added yunjia_example.sh
  • Added sushant_example.sh
  • Added try.py
  • Added test.py
  • Added analyze_optimization_results.py
  • Added ne_us_joint_system_basecase.py
  • Added revise_neus_system_parameters.py
  • Added northeast.m
  • Added northeast_ne.m
  • Added decode_isolated_junction_and_regulators.py
  • Added neus_power_system_data.m
  • Added EP36.m
  • Added tl_2017_us_state.shp.ea.iso.xml
  • Added tl_2017_us_state.shp.iso.xml
  • Added tl_2017_us_state.shp.xml
  • Added analyze_nminusk.ipynb
  • Added understand_gas_parameters.ipynb
  • Added understand_power_system_parameters_pre_change.ipynb
  • Added revise_joint_system_parameters_gas_system_topologies.ipynb
  • Added post_contingency_aggregate.ipynb
  • Added power_system_topologies.ipynb
  • Added compressor_power_source
  • Added new_compressor_power_source
  • Added ne_gas.mat
  • Added ne_gas_expansion.mat
  • Added df1_NEUS
  • Added power_36bus.mat
  • Added gcf_neus.csv
  • Added ng_generator_gas_source.txt
  • Added ng_generator_gas_source.obj
  • Added compressor_spatial_patterns.csv
  • Added new_pipelines.csv
  • Added results_power_generators.csv
  • Added new_generators.csv
  • Added generation_cost.csv
  • Added generator_spatial_patterns.csv
  • Added eia_generator_stats.csv
  • Added new_compressors.csv
  • Added new_branches.csv
  • Added new_buses.csv
  • Added new_junctions.csv
  • Added compressor_power_source.obj
  • Updated License Show Changes
    License
    • https://rightsstatements.org/page/InC/1.0/
  • Published
  • Updated