With the global eco-awareness, the European Union has claimed several regulations, such as the Directive on Waste Electrical and Electronic Equipment (WEEE) to regulate recycling items for end-of-life(EOL) electrical and electronic equipment. Under the trends in the responsibility of end-of-life product recycling, the reverse logistics management has become a topic of great interest for many academicians and planners, and an essential element of company strategy for others. However, the management of waste EOL reverse logistics is even more complex than the traditional logistics, due to the uncertainty surrounding the process of reverse logistics and EOL recycling. Demand analysis and forecasting for waste recycling is a critical foundation in the reverse logistics management of EOL electrical and electronic equipment, that is prerequisite to recycling management for regulators and administrators, and reverse logistics network design and transportation planning for reverse logistics service providers. However, few literatures have been paid to the demand analysis and forecasting models for reverse logistics and recycling of waste EOLs. This study attempts to develop a series of models to analyze the demand factors, and to predict the return quantity for waste EOL electrical and electronic equipment. The first part of this study conducted a demand survey and analysis of reverse logistics and recycling on EOL electrical and electronic equipment. This study applies exploratory factor analysis to identify key demand for EOL electrical and electronic equipment recycling. This study proposes a binary logistic regression model to determine the return probability. In the second part of the study, this study combines probability estimation and time-series forecasting model to propose a hybrid forecasting model for return quantity forecasting. Considering useful life of electrical and electronic equipment, the production shipment volume, and the return probabilities, the potential return quantity is estimated. Furthermore, a neural network model is developed to improve the forecasting accuracy and eliminate the uncertainty and randomness surrounding the input data. Finally, a case study with a reverse logistics and recycling of EOL electrical and electronic equipment data was provided to illustrate the results and the application of the model’s is shown to be more accurate prediction results than useful life, ARIMA, GM(1,1), binary regression and GM(1,N) models. The results verified that the proposed model is practicable, and provide a better prediction and explanation ability.