Electrochemical ammonia recovery and co-production of chemicals from manure wastewater
Data files
Oct 31, 2023 version files 5.86 MB
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all_Supplementary_Tables.zip
22.24 KB
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Description_of_abbreviated_variables.zip
8.17 KB
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Figures_in_the_manuscript.zip
926.87 KB
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README.md
2.54 KB
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Supplementary_Figs.zip
4.90 MB
Abstract
Livestock manure wastewater, containing high level of ammonia, is a major source of water contamination, posing serious threats to aquatic ecosystems. Because ammonia is an important nitrogen fertilizer, efficiently recovering ammonia from manure wastewater would have multiple sustainability gains from both the pollution control and the resource recovery perspectives. Here, we develop an electrochemical strategy to achieve this goal by using an ion-selective potassium nickel hexacyanoferrate (KNiHCF) electrode as a mediator. The KNiHCF electrode spontaneously oxidizes organic matter and uptakes ammonium ions (NH₄⁺) and potassium ions (K⁺) in manure wastewater with a nutrient selectivity of ~100%. Subsequently, nitrogen- and potassium-rich fertilizers are produced alongside the electrosynthesis of H₂ (green fuel) or H₂O₂ (disinfectant) while regenerating the KNiHCF electrode. The preliminary techno-economic analysis indicates that the proposed strategy has notable economic potential and environmental benefits. This work provides a powerful strategy for efficient nutrient (NH₄⁺ and K⁺) recovery and decentralized fertilizer and chemical production from manure wastewater, paving the way to sustainable agriculture.
README
This README file was generated on 2023-10-25 by Rui Wang.
GENERAL INFORMATION
- Title of Dataset: Electrochemical ammonia recovery and co-production of chemicals from manure wastewater
- Author Information
A. Principal Investigator Contact Information
Name: Song Jin
Institution: University of Wisconsin, Madison Email: jin@chem.wisc.edu <br> B. Graduate Student Contact Information Name: Rui Wang Institution: University of Wisconsin, Madison Email: rwang484@wisc.edu - Date of data collection: 2021-2023
- Recommended citation for this dataset:
Wang, Rui et al. (Forthcoming 2023). Electrochemical ammonia recovery and co-production of chemicals from manure wastewater [Dataset]. Dryad. https://doi.org/10.5061/dryad.z8w9ghxhp
DATA & FILE OVERVIEW
- File List:
A) Figures_in_the_manuscriot.zip:
Figure_2.csv
Figure_3.csv
Figure_4.csv
Figure_5.csv
Figure_6.csv
B) Supplementary_Figs.zip:
Supplementary_Fig_2-6_manure_wastewater_and_analysis.csv
Supplementary_Fig_8-16_structural_and_electrochemical_characterizations_of_RR.csv
Supplementary_Fig_17-24_redox_material_in_sww.csv
Supplementary_Fig_25-34_redox_mateiral_in_manure_wastewater.csv
Supplementary_Fig_35-47_ammonium_ recovery_with_chemical_production.csv
Supplementary_Fig_48_reduction_of_NH3_emissions.csv
Supplementary_Fig_50-51_preliminary_TEA.csv
C) all_Supplementary_Tables.zip:
all_Supplementary_Tables.csv
D) Description_of_abbreviated_variables.zip:
Description_of_abbreviated_variables.csv
- Relationship between files, if important: None
- Additional related data collected that was not included in the current data package: None
- Are there multiple versions of the dataset? No A. If yes, name of file(s) that was updated: NA i. Why was the file updated? NA ii. When was the file updated? NA
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DATA INFORMATION:
- Data from our manuscript titled "Electrochemical ammonia recovery and co-production of chemicals from manure wastewater". Raw results for Figures and tables in the manuscript and SI are included.
- Empty cells or cells with "null" mean no data there.
- The supplemental files included with the submission are compatible with the CC0 license waiver for publication and are not included within the related manuscript.
Sharing/access Information:
Data is also avaliable in the follwing link: https://uwmadison.box.com/s/ce234yjyxhvudmdg20dn0xb8f55ctwr7