Al-Sadek, Ahmed FGad, Beshoy KNassar, Hussein NEl-Gendy, Nour Sh2021-11-302021-11-302021-08-13https://doi.org/10.1080/15567036.2021.2007179https://bit.ly/2ZBydyHThe valorization of lignocellulosic wastes via the concept of bio-based circu- lar economy to achieve the sustainable development goals of clean energy, safe life on land, and climate change mitigation is a worldwide scope nowa- days. Lignocellulosic wastes are considered sustainable energy resources; consequently, it is crucial to find a cost-effective and time-saving method for predicting its higher heating value (HHV) to qualify its feasibility as a solid biofuel. In this study, the long short-term memory (LSTM) algorithm as a deep-learning (DL) approach has been applied in a pioneering step to calculate the HHV from 623 proximate analyses of various lignocellulosic biomasses. The relatively high value of the correlation coefficent of determi- nation (R2 0.8567) and low values of mean square error (MSE 0.67), root- mean-square error (RMSE 0.819), mean absolute error (MAE 0.597), and average absolute error (AAE 0.0319) confirmed the exceptional accuracy of the suggested LSTM model. Thus, recommending applying DL-LSTM as a new approach for building models since it provides an accurate prediction of HHV without the need for time-consuming and complicated experimental measurements or the conventional regression analysis and statistical modeling.en-USHigher heating valuelignocellulosic wastesLSTM modelingproximate analysissolid biofuelvalorizationArticlehttps://doi.org/10.1080/15567036.2021.2007179