Abstract
Excessive addition of food waste fertilizer to organic fertilizer (OF) is forbidden in the Republic of Korea because of high sodium chloride and capsaicin concentrations in Korean food. Thus, rapid and nondestructive evaluation techniques are required. The objective of this study is to quantitatively evaluate food-waste components (FWCs) using hyperspectral imaging (HSI) in the visible–near-infrared (Vis/NIR) region. A HSI system for evaluating fertilizer components and prediction algorithms based on partial least squares (PLS) analysis and least squares support vector machines (LS-SVM) are developed. PLS and LS-SVM preprocessing methods are employed and compared to select the optimal of two chemometrics methods. Finally, distribution maps visualized using the LS-SVM model are created to interpret the dynamic changes in the OF FWCs with increasing FWC concentration. The developed model quantitively evaluates the OF FWCs with a coefficient of determination of 0.83 between the predicted and actual values. The developed Vis/NIR HIS system and optimized model exhibit high potential for OF FWC discrimination and quantitative evaluation.
Highlights
With the increasing growth of the global economy and population, the associated increase in food consumption has resulted in large volumes of food waste (FW)
The primary aim of this study is to develop an optimal model for qualitatively and quantitatively detecting food-waste components (FWCs) in organic fertilizer (OF), based on the Vis/NIR HIS technique
A total of 275 mixture samples with different FWC concentrations were fabricated on the laboratory scale
Summary
With the increasing growth of the global economy and population, the associated increase in food consumption has resulted in large volumes of food waste (FW). The amount of FW is predicted to grow by 44% from 2005 to 2025 [1]. FW is usually incinerated with municipal solid waste or dumped in landfills [2,3]. Incineration and landfills can have harmful effects on human health and can contribute to global warming and environmental pollution through toxic gas emission, ground water contamination, air pollution, fire hazards, and so on [2,4,5]. FW should be properly managed to prevent negative environmental impact. Recycling technology and related biotechnology are undergoing rapid development [2,6,7,8]
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