Your search keyword '"Qiu, Keqiang"' showing total 2 results

1. Recycling of lead from spent lead-acid battery by vacuum reduction-separation of Pb-Sb alloy coupling technology.

Author

Liu, Tiantian, Bao, Zhiqun, and Qiu, Keqiang

Subjects

*LEAD-acid batteries, *ALLOYS, *ANTIMONY, *LEAD, *VACUUM, *TECHNOLOGY, *PASTE

Abstract

• A novel technology, for atomic economic recovery of lead paste, is proposed. • Direct recovery ratio of Pb reaches 99.29%, which means that Pb-loss is very little. • Sb-content in crude Pb-Sb alloy decreased from 46% to 0.98%. • The technology has advantages of lower cost and less pollution, etc. Until today, there are still many problems that must be solved through innovative research to make the recycling of spent lead-acid batteries and the separation of Pb-Sb alloy more environmentally friendly and energy-saving. In this paper, a novel method for regenerating lead paste, by vacuum reduction reaction coupling with separation of Pb-Sb alloy, was developed. In this process, antimony from Pb-Sb alloy is used to reduce desulfurized lead paste into lead under vacuum, while it is oxidized into volatile Sb 2 O 3 as by-product. The results showed that direct recovery ratio of Pb from desulfurized lead paste reached 99.29% and Sb-content in Pb-Sb alloy decreased from 46% to 0.98% under following conditions: the mass ratio of desulfurized lead paste to Pb-Sb alloy of 1.50, residual gas pressure of 30 Pa, reduction temperature of 810 °C for 50 min. By this method, not only the lead paste can be recovered with high atom economy, but also the Pb-Sb alloy can be separated efficiently at zero cost and without "three wastes" generation. Therefore, this method is very useful for the recycling of spent lead-acid battery and the separation of Pb-Sb alloy. [ABSTRACT FROM AUTHOR]

Published

2020

2. Recycling of organic materials and solder from waste printed circuit boards by vacuum pyrolysis-centrifugation coupling technology

Author

Zhou, Yihui, Wu, WenBiao, and Qiu, Keqiang

Subjects

*WASTE recycling, *PRINTED circuits, *VACUUM, *PYROLYSIS, *CENTRIFUGATION in sewage purification, *ORGANIC wastes, *TEMPERATURE effect, *GLASS fibers

Abstract

Abstract: Here, we focused on the recycling of waste printed circuit boards (WPCBs) using vacuum pyrolysis-centrifugation coupling technology (VPCT) aiming to obtain valuable feedstock and resolve environmental pollution. The two types of WPCBs were pyrolysed at 600°C for 30min under vacuum condition. During the pyrolysis process, the solder of WPCBs was separated and recovered when the temperature range was 400–600°C, and the rotating drum was rotated at 1000rpm for 10min. The type-A of WPCBs pyrolysed to form an average of 67.91wt.% residue, 27.84wt.% oil, and 4.25wt.% gas; and pyrolysis of the type-B of WPCBs led to an average mass balance of 72.22wt.% residue, 21.57wt.% oil, and 6.21wt.% gas. The GC–MS and FT-IR analyses showed that the two pyrolysis oils consisted mainly of phenols and substituted phenols. The pyrolysis oil can be used for fuel or chemical feedstock for further processing. The recovered solder can be recycled directly and it can also be a good resource of lead and tin for refining. The pyrolysis residues contained various metals, glass fibers and other inorganic materials, which could be recovered after further treatment. The pyrolysis gases consisted mainly of CO, CO2, CH4, and H2, which could be collected and recycled. [Copyright &y& Elsevier]

Published

2011