Xinmin Zhan scite author profile

Anaerobic co-digestion (AcoD) is a pragmatic approach to simultaneously manage organic wastes and produce renewable energy. This review demonstrates the need for improving AcoD modelling capacities to simulate the complex physicochemical and biochemical processes. Compared to mono-digestion, AcoD is more susceptible to process instability, as it operates at a higher organic loading and significant variation in substrate composition. Data corroborated here reveal that it is essential to model the transient variation in pH and inhibitory intermediates (e.g. ammonia and organic acids) for AcoD optimization. Mechanistic models (based on the ADM1 framework) have become the norm for AcoD modelling. However, key features in current AcoD models, especially relationships between system performance and co-substrates' properties, organic loading, and inhibition mechanisms, remain underdeveloped. It is also necessary to predict biogas quantity and composition as well as biosolids quality by considering the conversion and distribution of sulfur, phosphorus, and nitrogen during AcoD.

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Ethanol and lactic acid production as affected by sorghum genotype and location

Zhan

Wang

Tuinstra

et al. 2003

Industrial Crops and Products

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A review on control of harmful algal blooms by plant-derived allelochemicals

Xiao-qin

Dao

Tao

et al. 2021

Journal of Hazardous Materials

146

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Nutrient Recovery from Digestate of Anaerobic Digestion of Livestock Manure: a Review

et al. 2018

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Xinmin Zhan

Effect of pig manure to grass silage ratio on methane production in batch anaerobic co-digestion of concentrated pig manure and grass silage

Anaerobic co-digestion: A critical review of mathematical modelling for performance optimization

Ethanol and lactic acid production as affected by sorghum genotype and location

A review on control of harmful algal blooms by plant-derived allelochemicals

Nutrient Recovery from Digestate of Anaerobic Digestion of Livestock Manure: a Review

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