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REVUB (Renewable Electricity Variability, Upscaling and Balancing)

Authors: Sebastian Sterl

Contact author: [email protected]

1. Introduction


The main objective of REVUB is to model how the operation of hydropower plants can be hybridised with variable solar and wind power (VRE) plants, allowing the combination of hydro with VRE to operate "as a single unit" to provide reliable electricity supply and load-following services. The model can be used, for instance, in due diligence processes for power plant financing.

This model was first introduced in the paper "Smart renewable electricity portfolios in West Africa" by Sterl et al. (2020; https://www.nature.com/articles/s41893-020-0539-0); hereafter referred to as "the publication". It has since been used for several more peer-reviewed publications.

A detailed description of all involved principles and equations can be found in the dedicated Manual (https://github.com/VUB-HYDR/REVUB/blob/master/4_Manual/REVUB_manual.pdf).

The REVUB code simulates dedicated hydropower plant operation to provide an effective capacity credit to VRE, and allows to derive:

  • Suitable mixes of hydro, solar and wind power to maximise load-following under user-defined constraints;
  • Reliable operating rules for hydropower reservoirs to enable this load-following across wet- and dry-year conditions;
  • Hourly to decadally resolved hydro, solar and wind power generation.

2. Installation


The most recent version of the REVUB model was written for Python 3.9.

No specific packages are needed except for the regular numpy, pandas, and matplotlib.

A training dataset, allowing the user to set up a REVUB simulation from scratch, learn how to set up input data, and become acquainted with simulation control, is available in the folder https://github.com/VUB-HYDR/REVUB/tree/master/5_Training_dataset.

3. Tool's structure


Scripts

The code is divided into four scripts: one for initialisation (A), one containing the core code (B), and two for plotting (C). For a detailed explanation of the purpose of each file and the equations solved by the core code, the user is referred to the Manual in the folder https://github.com/VUB-HYDR/REVUB/tree/master/4_Manual. The files are always run in sequence A-B-C.

  • A_REVUB_initialise

This script initialises the data needed for a simulation to run.

The script is controlled by an Excel file where the user defines overall modelling parameters ("parameters_simulation.xlsx"), and reads in several Excel files with tabulated time series and other data ("data_xxx.xlsx").

In the training dataset, the user learns how to work with these files.

  • B_REVUB_main_code

This script runs the actual REVUB model simulation and optimisation.

In the training dataset, the user learns how to run this code after having successfully initialised a simulation.

  • C_REVUB_plotting_individual

This script produces figure outputs for the individually simulated plants, chosen by the user from an Excel file named "plotting_settings.xlsx".

The figures include various time series and statistical charts on - among other things - reservoir dynamics (drawdown and refilling) without and with hydro-VRE hybridisation, electricity generation of the hydro-VRE complex from hourly to seasonal and multianual scales, and the corresponding hydropower plant operation (rule curves, turbine activity, mode of operation).

In the training dataset, the user learns how to produce meaningful figures using this script after having successfully run a simulation.

  • C_REVUB_plotting_multiple

This script produces figure outputs of the overall power mix of a given region/country/grid.

For a user-defined ensemble of the simulated plants, which the user can set in the Excel file "plotting_settings.xlsx", the script plots overall hydro-solar-wind power generation from this ensemble at hourly, seasonal and multiannual time scales, and compares it to a user-set overall hourly power demand curve (representing overall demand in the country/region/grid).

The difference between hydro-VRE and this overall demand is assumed to be covered by other power sources (thermal power sources are used as default in the script). Thus, this script can be used to provide insights on the overall power mix of a country/region/grid upon implementing hydro-VRE complementary operation.

Versions

Version 0.1.0 - January 2020

Version 1.0.0 - August 2023

Version 1.0.1 - September 2023

Version 1.0.2 - October 2023

Version 1.0.3 - November 2023

Version 1.0.4 - April 2024

License

See also the LICENSE file.

Acknowledgements

The following funding sources are gratefully acknowledged:

  • 2023-24: The World Bank (WB), Infrastructure Energy & Extractives Global Knowledge Unit (IEEGK), PO Number 8831242.
  • 2022: International Rivers, consulting contract "Alternatives to new hydropower to meet energy needs in the Republic of Guinea".
  • 2018-21: Project CIREG, part of ERA4CS, an ERA-NET Co-fund action initiated by JPI Climate, funded by BMBF (DE), FORMAS (SE), BELSPO (BE) and IFD (DK) with co-funding from the EU's Horizon2020 Framework Program, Grant 690462.