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github.com
article
https://github.com/IdahoLabResearch/HydroGenerate
## Use saved searches to filter your results more quickly. **HydroGenerate** is an open-source python library that has the capability of estimating hydropower generation based on flow rate either provided by the user or received from United States Geological Survey (USGS) water data services. This means that the classes and utilities can be used anywhere in your system, without risks of making unwanted changes to the core code in the repo, issues with finsing the module in path, etc. **HydroGenerate** can be installed by downloading the source code from GitHub or via the PyPI package manager using pip. For those interested only in using the code, the simplest way to obtain it is with pip by using this command:. title = {Hydrogenerate: Open Source Python Tool To Estimate Hydropower Generation Time-series},. Hydrogenerate: Open Source Python Tool To Estimate Hydropower Generation Time-series. Hydrogenerate: Open Source Python Tool To Estimate Hydropower Generation Time-series (Version 3.6 or newer) [Computer software].
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idaholabresearch.github.io
research
https://idaholabresearch.github.io/HydroGenerate/HydroGenerate_Introduction.html
HydroGenerate is an open-source python library that estimates hydropower generation based on head height and flow rate for different types of hydropower.
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osti.gov
official
https://www.osti.gov/biblio/code-66918
https://doi.org/10.11578/dc.20211112.1` 🗎 Copy to clipboard `Mitra, Bhaskar, Gallego-Calderon, JuanF., Elliott, ShilohN, Mosier, ThomasM, & Bastidas Pacheco, CamiloJose (2021). https://doi.org/10.11578/dc.20211112.1` 🗎 Copy to clipboard `Mitra, Bhaskar, Gallego-Calderon, JuanF., Elliott, ShilohN, et al., "Hydrogenerate: Open Source Python Tool To Estimate Hydropower Generation Time-series," (2021), https://doi.org/10.11578/dc.20211112.1` 🗎 Copy to clipboard `@misc{osti_code-66918, author = {Mitra, Bhaskar and Gallego-Calderon, JuanF. and Elliott, ShilohN and Mosier, ThomasM and Bastidas Pacheco, CamiloJose}, title = {Hydrogenerate: Open Source Python Tool To Estimate Hydropower Generation Time-series}, annote = {Hydropower is one of the most mature forms of renewable energy generation. The tool calculates the efficiency as a function of flow based on the turbine type either selected by the user or estimated based on the “head” provided by the user.}, doi = {10.11578/dc.20211112.1}, url = {https://www.osti.gov/biblio/code-66918}, place = {United States}, year = {2021}, month = {10}}` 🗎 Copy to clipboard. `Mitra, Bhaskar, Gallego-Calderon, JuanF., Elliott, ShilohN, et al., "Hydrogenerate: Open Source Python Tool To Estimate Hydropower Generation Time-series," (2021), https://doi.org/10.11578/dc.20211112.1`.
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energy.gov
official
https://www.energy.gov/cmei/water/water-power-tools-and-datasets
Many projects funded by the U.S. Department of Energy’s (DOE's) Hydropower and Hydrokinetic Office (H2O) result in web-based tools, datasets, or other contributions to collective water power knowledge. H2O's tools, datasets, and information resources can help water power stakeholders better understand, develop, and deploy hydropower and marine energy technologies. ### Hydropower Tools and Datasets. | The EHA database is an annually updated point-level dataset that describes key information for operational hydropower and pumped storage assets in the U.S. It is one of the most up-to-date places to find nationwide information about hydropower like plant capacity, location, dam and owner characteristics, and annual energy generation. | HydroSource is an innovative digital platform consisting of comprehensive data and diverse tools on U.S. hydropower assets that enables data-driven decision making at the water-energy nexus. Users can find a plethora of data related to many types of hydropower and water development including (but not limited to) new stream reach development, non-powered dam development, existing hydropower assets, and fish passage to drive their own use cases.
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faculty.sites.iastate.edu
research
https://faculty.sites.iastate.edu/tesfatsi/archive/tesfatsi/electricoss.htm
# Open Source Software (OSS) for Electricity Market Research, Teaching, and Training. * **OSS for Electricity Market Simulation**. + **AMIRIS Energy Market Model (Java/Python)**. + **ERCOT Test System (Java/Python)**. + **ISO-NE Test System (Java/Python)**. + **JASA: Java Auction Simulator API**+ **MASCEM: MultiAgent Simulator of Competitive Electricity Markets**+ [**MinPower: Electric Power Market Simulator (Python)**+ [**Tools for Assessment of Bidding into Electricity Auctions (Java)**](#MASCEM)](#JASA). * **OSS for Power Flow and OPF**. + **Pandapower: Power System Modeling and Analysis**. + **SimSee: Platform for Simulation of Systems of Electrical Energy**. Many commercially available packages for power system analysis now incorporate components critical for the simulation of restructured electricity markets (e.g. optimal power flow solvers). : The **AMES Wholesale Power Market Test Bed** is a modular, extensible, open source software platform developed by an interdisciplinary team of researchers at Iowa State University, with support from researchers at the Pacific Northwest National Laboratory.
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globalenergymonitor.org
article
https://globalenergymonitor.org/projects/global-hydropower-tracker
# Global Hydropower Tracker. The Global Hydropower Tracker (GHT) is a worldwide dataset of hydroelectric power facilities and includes information such as status, technology type, location, number of turbines, project owner, operator, and more. ### The Global Hydropower Tracker provides comprehensive data on one of the world’s most established sources for low-carbon power and grid-scale energy storage. Hydropower Capacity by Country/Area (MW). Hydropower Project Count by Country/Area. Hydropower Capacity by Region and Subregion in Megawatts (MW). Hydropower Capacity by Region and Type in Megawatts (MW). Top 20 Countries/Areas by Operating Hydropower Capacity in Megawatts (MW). Top 20 Countries/Areas by Prospective Hydropower Capacity in Megawatts (MW). Pumped Storage Hydropower Capacity by Country/Area in Megawatts (MW). Pumped Storage Hydropower Project Count by Country/Area. Pumped Storage Hydropower Capacity Added by Country/Area and Year in Megawatts …. Pumped Storage Hydropower Capacity by Region and Subregion in Megawatts (MW). Top 20 Countries/Areas by Prospective Pumped Storage Capacity in Megawatts (MW).
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eia.gov
official
https://www.eia.gov/energyexplained/hydropower
# Hydropower explained. * ## Also in *What is energy?*. * ## Also in *Units and calculators explained*. * ## Also in *U.S. energy facts explained*. * ## Also in *Use of energy explained*. * ## Also in *Energy and the environment explained*. * ## Also in *Oil and petroleum products explained*. * Offshore oil and natural gas. * ## Also in *Diesel fuel explained*. * Where our diesel comes from. * ## Also in *Heating oil explained*. * Where our heating oil comes from. * ## Also in *Hydrocarbon gas liquids explained*. * ## Also in *Natural gas explained*. * Where our natural gas comes from. * Natural gas and the environment. * ## Also in *Renewable energy explained*. * Solar energy and the environment. ## Hydropower is energy in moving water. Hydropower was one of the first sources of energy used for electricity generation, and until 2019, hydropower was the leading source of total annual U.S. renewable electricity generation.
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facebook.com
news
https://www.facebook.com/groups/1511279735770917/posts/6765817463650425
Hydropower plants are among the most efficient and reliable sources of renewable energy. They harness the flow of water through turbines to