https://orcid.org/0000-0002-7211-5777
References
- Liang F, Shi Z, Wei S, et al. Biogas slurry purification-lettuce growth nexus: nutrients absorption and pollutants removal. Sci Total Environ. 2023;890:164383.
- Astals S, Nolla-Ardevol V, Mata-Alvarez J. Anaerobic co-digestion of pig manure and crude glycerol at mesophilic conditions: biogas and digestate. Bioresour Technol. 2012;110:63–70.
- Luo H, Lyu T, Muhmood A, et al. Effect of flocculation pre-treatment on membrane nutrient recovery of digested chicken slurry: mitigating suspended solids and retaining nutrients. Chem Eng J. 2018;352:855–862.
- Zhu Y, Yuan G, Zhao Z, et al. Pig farm biogas slurry can effectively reduce the pH of saline-alkali soils. Environ Technol. 2021;44(10):1415–1425.
- Meixner K, Fuchs W, Valkova T, et al. Effect of precipitating agents on centrifugation and ultrafiltration performance of thin stillage digestate. Sep Purif Technol. 2015;145:154–160.
- Wang W, Lee DJ. Valorization of anaerobic digestion digestate: A prospect review. Bioresour Technol. 2021;323:124626.
- Bolzonella D, Fatone F, Gottardo M, et al. Nutrients recovery from anaerobic digestate of agro-waste: techno-economic assessment of full scale applications. J Environ Manage. 2018;216:111–119.
- Vaneeckhaute C, Meers E, Michels E, et al. Fate of macronutrients in water treatment of digestate using vibrating reversed osmosis. Wat Air Soil Poll. 2011;223:1593–1603.
- Adam G, Mottet A, Lemaigre S, et al. Fractionation of anaerobic digestates by dynamic nanofiltration and reverse osmosis: An industrial pilot case evaluation for nutrient recovery. J Environ Chem Eng. 2018;6:6723–6732.
- Wu J, Yang Q, Yang G, et al. Effects of biogas slurry on yield and quality of oil-seed rape. J Plant Nutr. 2013;36:2084–2098.
- Wang Q, Huang Q, Wang J, et al. Ecological circular agriculture: A case study evaluating biogas slurry applied to rice in two soils. Chemosphere. 2022;301:134628.
- Rahaman MA, Zhang Q, Shi Y, et al. Biogas slurry application could potentially reduce N2O emissions and increase crop yield. Sci Total Environ. 2021;778:146269.
- Alburquerque JA, de la Fuente C, Campoy M, et al. Agricultural use of digestate for horticultural crop production and improvement of soil properties. Eur J Agron. 2012;43:119–128.
- Yu F-B, Luo X-P, Song C-F, et al. Concentrated biogas slurry enhanced soil fertility and tomato quality. Acta Agric Scand - B Soil Plant Sci. 2010;60:262–268.
- Tshikalange B, Bello ZA, Ololade OO. Comparative nutrient leaching capability of cattle dung biogas digestate and inorganic fertilizer under spinach cropping condition. Environ Sci Pollut Res Int. 2020;27:3237–3246.
- Ferdous Z, Ullah H, Datta A, et al. Application of biogas slurry in combination with chemical fertilizer enhances grain yield and profitability of Maize (Zea Mays L.). Commun Soil Sci Plant Anal. 2020;51:2501–2510.
- Bao Y, Fu Y, Wang C, et al. An effective integrated system used in separating for anaerobic digestate and concentrating for biogas slurry. Environ Technol. 2021;42:4434–4443.
- Liang X, Wang C, Wang H, et al. Biogas slurry topdressing as replacement of chemical fertilizers reduces leaf senescence of maize by up-regulating tolerance mechanisms. J Environ Manage. 2023;344:118433.
- Meng X, Yan J, Zuo B, et al. Full-scale of composting process of biogas residues from corn stover anaerobic digestion: physical-chemical, biology parameters and maturity indexes during whole process. Bioresour Technol. 2020;302:122742.
- Wang Z, Sanusi IA, Wang J, et al. Developments and prospects of farmland application of biogas slurry in China—a review. Microorganisms. 2023;11:2675.
- Wang H, Xiang Y, Zhang F, et al. Responses of yield, quality and water-nitrogen use efficiency of greenhouse sweet pepper to different drip fertigation regimes in Northwest China. Agric Water Manag. 2022;260. 107279, ISSN 0378-3774, https://doi.org/10.1016/j.agwat.2021.107279.