(below −3 ◦C) or for longer gelatio

(below −3 ◦C) or for longer gelation time, the cellulose gels can form in the cellulose solutions, as a result of the strong self-association force of cellulose, because of the destruction of IC (Cai & Zhang, 2006). In our laboratory, H2SO4/Na2SO4 aqueous solution has been used as the coagulant to prepare regenerated cellulose membrane (Mao et al., 2006; Zhang, Mao, Zhou, & Cai, 2005b), fiber (Qi, Cai, Zhang, Nishiyama, & Rattaz, 2008), microsphere (Luo & Zhang, 2010) and hydrogel (Chang, Duan, Cai, & Zhang, 2010). It is worth noting that we have successfully spun regenerated cellulose fibers from
custom-made equipments, which contains 1000 L dissolution tank, low-temperature-cycle cooling system, filter, vacuum defoamer, and spinning system (Li et al., 2010). So, we are interested in clarifying of the reason of the coagulation and regeneration of the
cellulose solution by heating, adding H2SO4 or others. All the times we used H2SO4 as coagulant, and considered that the regeneration of cellulose was because of the neutralization of NaOH and H2SO4. The purpose of this work is to study on the water role as coagulant and mechanism of the regeneration. The cellulose solution was coagulated in water with different temperature to prepare regenerated films and their morphology, structure and properties were characterized to evaluate the potential applications in the industry. If we can use water as direct coagulant, this would lead to lower cost and less pollution, which is much useful in cellulose industry.