Loading...
Loading...
Electricity generation/consumption, renewable energy, smart grid, oil/gas, carbon emissions
4,164 datasets
A 2,000-row, 100-column subsample of a larger electricity dataset, created with a random seed of 1. It was generated by Eddie Bergman using a Python script that performed stratified sampling to maintain class distribution across 10 target classes. The original dataset is from OpenML and is in the public domain (us-pd).
A 2000-row, 100-feature subsample of a larger electricity dataset, created by Eddie Bergman. The data is structured for classification tasks with up to 10 target classes, generated via a controlled subsampling process with a specified random seed. The original dataset is associated with electricity and load forecasting topics.
May 21, 2015, is the date of the modeled oil particle data. This dataset is a NOAA GNOME model hindcast of particles reaching the shoreline from the Refugio State Beach oil spill, which began on May 19, 2015. The data was created by the National Oceanic and Atmospheric Administration's Office of Response and Restoration to investigate environmental impacts.
A NOAA GNOME model hindcast representing particles of oil reaching the shoreline from the May 2015 Refugio State Beach pipeline spill. The spill released an estimated 21,000 gallons of oil into the Pacific Ocean near Santa Barbara County, California. The dataset was created by the National Oceanic and Atmospheric Administration and last updated in March 2026.
NOAA GNOME modeled hindcast of particles of oil reaching the shoreline from the May 19, 2015 pipeline rupture near Refugio State Beach, California. The dataset represents an estimated 21,000 gallons of oil that flowed into the Pacific Ocean. It was created by the National Oceanic and Atmospheric Administration for investigating environmental impacts and determining restoration needs.
A May 19, 2015 pipeline rupture near Refugio State Beach in Santa Barbara County, California, released an estimated 21,000 gallons of oil into the Pacific Ocean. This geospatial layer from NOAA's Office of Response and Restoration depicts the location of the ruptured Line 901 pipeline. The dataset is used to investigate environmental impacts and determine restoration needs.
A NOAA GNOME modeled hindcast animation of oil particle trajectories from the 2015 Refugio State Beach pipeline spill. The layer shows particles reaching the shoreline in the affected area of Santa Barbara County, California. The data was produced by the National Oceanic and Atmospheric Administration's Office of Response and Restoration for Natural Resource Damage Assessment.
May 19, 2015, a pipeline rupture near Refugio State Beach, California, released an estimated 21,000 gallons of oil into the Pacific Ocean. This dataset is a NOAA GNOME modeled hindcast of particles of oil reaching the shoreline, created by the National Oceanic and Atmospheric Administration to investigate impacts and determine restoration needs.
NOAA's GNOME model hindcast of oil particles reaching the shoreline from the May 2015 Refugio State Beach pipeline rupture. The dataset is produced by the National Oceanic and Atmospheric Administration's Office of Response and Restoration for Natural Resource Damage Assessment. It models the spread of an estimated 21,000 gallons of oil into the Pacific Ocean from Santa Barbara County, California.
NOAA's GNOME model hindcast of oil particles reaching the shoreline after a 21,000-gallon pipeline rupture near Refugio State Beach on May 19, 2015. The National Oceanic and Atmospheric Administration created this dataset to investigate environmental impacts and determine restoration needs. This layer represents modeled oil particle trajectories for the affected California coastline.
A 2015 dataset from the Refugio Beach oil spill in California depicts the maximum categorical shoreline oiling observed throughout the impact area. It was compiled by NOAA and partner survey teams using the Shoreline Cleanup and Assessment Technique (SCAT) during daily surveys. The layer represents the highest oiling category observed for each shoreline segment at any point during the spill response.
Statistics Canada provides monthly data on natural gas production, transportation, storage, and distribution. The dataset tracks volumes and energy amounts for supply and disposition activities. File formats include HTML, XML, and CSV.
Geochemical data delineates petroleum systems in the Northern Bonaparte Basin offshore Australia. The study analyzes oils and source rock extracts from wells on the Laminaria and Flamingo highs, identifying distinct chemical groups correlating to reservoir types.
A 2020 geochemical study analyzes oil-oil correlations and source rocks in the latest Devonian–earliest Carboniferous succession of the Canning Basin. The research distinguishes oil families using aromatic hydrocarbons, biomarker ratios, and stable carbon isotopes. It evaluates potential source rocks for the Ungani and L4 oil families.
Geoscience Australia's organic geochemistry database contains analytical results for petroleum exploration samples, including source rocks, crude oils, and natural gases collected across Australia. The data, produced by techniques like programmed pyrolysis and gas chromatography-mass spectrometry, enables typing petroleum fluids and correlating them to source rocks for mapping total petroleum systems.
USGS cell maps illustrate exploration maturity and production types for oil and gas plays within the Western Great Basin province. Each quarter-mile cell is coded based on whether contained wells are predominantly oil-producing, gas-producing, both, or dry. The dataset was created in 1994 using well data current as of December 1990.
Quarter-mile cell maps illustrate exploration maturity and production types for oil and gas plays within the Ventura Basin Province. The U.S. Geological Survey created these maps in 1994 using proprietary well data current as of December 1990. The dataset covers five conventional plays, including onshore Paleogene and Neogene formations and offshore state waters.
Quarter-mile cell maps illustrate exploration maturity and production types for oil and gas plays within the Uinta-Piceance Basin Province. The U.S. Geological Survey created these maps in 1994 using well data current as of December 1990. Cell codes represent whether wells within each square are predominantly oil-producing, gas-producing, both, or dry.
1994 cell maps illustrate exploration maturity and production distribution for the 1995 U.S. National Oil and Gas Assessment within the Santa Maria Basin Province. The U.S. Geological Survey created these maps using proprietary well data current as of December 1990. Each quarter-mile cell is coded to indicate whether contained wells are predominantly oil-producing, gas-producing, both, or dry.
USGS cell maps illustrate oil and gas exploration maturity, production type, and distribution for the San Joaquin Basin Province. The dataset comprises quarter-mile square cells coded for predominant well production status. Data originates from the 1995 U.S. National Oil and Gas Assessment, with source well information current as of December 1990.