摘要
针对太阳能应用于国际木质包装检验检疫热处理领域进行了理论计算与方案的设计,提出了两种适合实际生产并且太阳能利用率超过50%的解决方案。研究得出理论上标准热处理窑当集热面积达到216㎡时,整个处理过程中太阳能利用率超过93%,实现了太阳能利用占主导地位的目的。从理论计算中得出设计方案能够满足国际木质包装热处理的基本要求,实际热处理效果有待于进一步研究过程中的具体试验数据。该设计不仅从理论上论证了太阳能应用于热处理领域的可行性,同时在国际上首次提出木质包装热处理使用太阳能的思路,为今后的研究提供试验指导。
A theoretical calculation and schematic design has been carried out in view of the application of solar energy in the heat treatment field of international wood package inspection and quarantine, and two solutions which are applicable in actual production and can provide over 50% utilization ratio of solar energy have been presented. The study shows that, in theory, when the heat collection area reaches 216 m2, the utilization ratio of solar energy is more than 93% during the entire treating process of standard heat treatment kiln, from which the utilization of solar energy as the leading role is realized. From the theoretical calculation, the basic requirements of international wood package heat trealanent can be met by the schematic design, while the effects of the heat treatment by the theoretical calculation need to be verified with the specific test data produced in the further study. In the design, the feasibility of solar energy applying in heat treatment is theoretically proved; moreover, for the first time, a thought of using solar energy in wood package heat treatment is presented as well, thus providing a testing guidance for future study.
出处
《中南林业科技大学学报》
CAS
CSCD
北大核心
2013年第1期99-103,共5页
Journal of Central South University of Forestry & Technology
基金
国家质检总局项目(2012IK277)
江苏出入境检验检疫局项目(2009KJ47)
关键词
太阳能
节能
热处理
理论设计
solar energy
energy-saving
heat treatment
theoretical design