Literature Data on Foam Fracturing Fluid
At the beginning of this project, the Temple team spent significant effort to collect data relevant to foam fracturing. More than 40 articles/reports were found in the open literature that reported the properties of aqueous foams under various testing conditions. The foam properties included viscosity and stability in terms of half-life, while were influenced by the foam quality, shear rate, temperature, pressure, as well as surfactants and additives used in making the foam base solutions. As a result, more than 1100 data points were collected, which are included in a master worksheet named "Literature data on Foam Fracturing Fluid". These data points are organized based on following parameters:
1. Literature source, including authors and publication year
2. Gaseous phase (e.g. CO2, N2)
3. Liquid phase (e.g. tap water, DI water, salt water)
4. Surfactants and their concentrations
6. Additives
7. Foam quality
8. Pressure
9. Temperature
10. Viscosity
11. Foam stability, which was characterized by its half-life: Half-life
Foam study data base with data analysis was completed and a webpage is designed hosted on public server at https://surfactant-dashboard.herokuapp.com
Citation Formats
TY - DATA
AB - At the beginning of this project, the Temple team spent significant effort to collect data relevant to foam fracturing. More than 40 articles/reports were found in the open literature that reported the properties of aqueous foams under various testing conditions. The foam properties included viscosity and stability in terms of half-life, while were influenced by the foam quality, shear rate, temperature, pressure, as well as surfactants and additives used in making the foam base solutions. As a result, more than 1100 data points were collected, which are included in a master worksheet named "Literature data on Foam Fracturing Fluid". These data points are organized based on following parameters:
1. Literature source, including authors and publication year
2. Gaseous phase (e.g. CO2, N2)
3. Liquid phase (e.g. tap water, DI water, salt water)
4. Surfactants and their concentrations
6. Additives
7. Foam quality
8. Pressure
9. Temperature
10. Viscosity
11. Foam stability, which was characterized by its half-life: Half-life
Foam study data base with data analysis was completed and a webpage is designed hosted on public server at https://surfactant-dashboard.herokuapp.com
AU - Thakor, Viren
A2 - Ren, Fei
A3 - Wang, Hong
DB - Open Energy Data Initiative (OEDI)
DP - Open EI | National Renewable Energy Laboratory
DO - 10.15121/1869426
KW - geothermal
KW - energy
KW - Enhanced Geothermal Systems
KW - Foam Fracturing Fluids
KW - foam
KW - foam fracturing
KW - data
KW - literature review
KW - data collection
KW - processed data
KW - reference
LA - English
DA - 2021/11/08
PY - 2021
PB - Temple University
T1 - Literature Data on Foam Fracturing Fluid
UR - https://doi.org/10.15121/1869426
ER -
Thakor, Viren, et al. Literature Data on Foam Fracturing Fluid. Temple University, 8 November, 2021, GDR. https://doi.org/10.15121/1869426.
Thakor, V., Ren, F., & Wang, H. (2021). Literature Data on Foam Fracturing Fluid. [Data set]. GDR. Temple University. https://doi.org/10.15121/1869426
Thakor, Viren, Fei Ren, and Hong Wang. Literature Data on Foam Fracturing Fluid. Temple University, November, 8, 2021. Distributed by GDR. https://doi.org/10.15121/1869426
@misc{OEDI_Dataset_7491,
title = {Literature Data on Foam Fracturing Fluid},
author = {Thakor, Viren and Ren, Fei and Wang, Hong},
abstractNote = {At the beginning of this project, the Temple team spent significant effort to collect data relevant to foam fracturing. More than 40 articles/reports were found in the open literature that reported the properties of aqueous foams under various testing conditions. The foam properties included viscosity and stability in terms of half-life, while were influenced by the foam quality, shear rate, temperature, pressure, as well as surfactants and additives used in making the foam base solutions. As a result, more than 1100 data points were collected, which are included in a master worksheet named "Literature data on Foam Fracturing Fluid". These data points are organized based on following parameters:
1. Literature source, including authors and publication year
2. Gaseous phase (e.g. CO2, N2)
3. Liquid phase (e.g. tap water, DI water, salt water)
4. Surfactants and their concentrations
6. Additives
7. Foam quality
8. Pressure
9. Temperature
10. Viscosity
11. Foam stability, which was characterized by its half-life: Half-life
Foam study data base with data analysis was completed and a webpage is designed hosted on public server at https://surfactant-dashboard.herokuapp.com},
url = {https://gdr.openei.org/submissions/1380},
year = {2021},
howpublished = {GDR, Temple University, https://doi.org/10.15121/1869426},
note = {Accessed: 2025-04-25},
doi = {10.15121/1869426}
}
https://dx.doi.org/10.15121/1869426
Details
Data from Nov 8, 2021
Last updated Jun 19, 2022
Submitted May 19, 2022
Organization
Temple University
Contact
Viren Thakor
Authors
Original Source
https://gdr.openei.org/submissions/1380Research Areas
Keywords
geothermal, energy, Enhanced Geothermal Systems, Foam Fracturing Fluids, foam, foam fracturing, data, literature review, data collection, processed data, referenceDOE Project Details
Project Name Foam Fracturing Study for Stimulation Development of Enhanced Geothermal System (EGS)
Project Lead Zachary Frone
Project Number FY19 AOP 1.7.2.3
