A regeneration technology of fluorite (CaF2) from spent HF and Buffered HF (BHF) has been investigated. The mechanism of "direct conversion" of granular calcite (CaCO3) into granular fluorite has revealed and several special phenomena are first found to be efficient. An advanced system has been developed. This system regenerates granular fluorite by conversion of granular calcite filled in a column. High purity and low water fluorite is recovered as a substitute for natural fluorspar (CaF2). The fluorine concentration in the processed effluent is minimized to a level of 5 ppm. The separation of the HF processing line and BHF processing line equipped ammonia stripper is an important to system design because ammonia generated from BHF significantly retards the conversion efficiency from CaCO3 to CaF2. The new system reforming the conventional slaked lime processing solves long-pending problem, resulting in a very compact system with a very small amount of product.

We discuss estimation error as a basic problem in formant estimation in the analysis of speech of very short-time duration in the glottal closure of the vowel. We also show in our simulation that good estimation of the first formant is almost impossible with the ordinary method using a waveform cutting. We propose a new method in which the cut waveform, as a discontinuous function of finite time, is mapped to a continuous function defined in the whole time domain; and we show that using this method, the estimation accuracy for low frequency formants can be greatly improved.

We propose an auto-mesh generation algorithm for 3-Dimensional elliptic model on acoustic analysis of the vocal tract. We mesh the vocal tract and compute the vocal tract transfer function (VTTF) using Finite Element Method (FEM). We show there is little difference between the VTTF using our algorithm and that of the manual mesh, especially for vowel /a/. We show that the number of nodes is depended on the shape of the cross section of the vocal tract. Furthermore we compute the VTTF of the vocal tract with variable shape continuously.