化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
10期
4191-4196
,共6页
水氯镁石%薄膜%沉积%热解%热等离子体
水氯鎂石%薄膜%沉積%熱解%熱等離子體
수록미석%박막%침적%열해%열등리자체
bischofite%film%deposition%pyrolysis%thermal plasma
我国盐湖资源丰富,其中位于青海的察尔汗盐湖是我国最大的钾肥生产基地。然而在钾肥生产过程中副产的大量水氯镁石(MgCl2·6H2O)目前尚得不到有效的利用,“镁害”已经成为盐湖卤水提钾后的首要问题。本文提出以高频热等离子体为高温热源,强化水氯镁石的热解过程,同时将热解产物沉积得到高附加值的MgO薄膜。研究结果表明,该工艺热解效率高,热解得到高纯的MgO薄膜,沉积效率可达到3.2μm·min-1,薄膜颗粒粒径处于10~60 nm之间,具有良好的光致发光性能;同时沉积工艺过程简单,适合大规模连续化生产。
我國鹽湖資源豐富,其中位于青海的察爾汗鹽湖是我國最大的鉀肥生產基地。然而在鉀肥生產過程中副產的大量水氯鎂石(MgCl2·6H2O)目前尚得不到有效的利用,“鎂害”已經成為鹽湖滷水提鉀後的首要問題。本文提齣以高頻熱等離子體為高溫熱源,彊化水氯鎂石的熱解過程,同時將熱解產物沉積得到高附加值的MgO薄膜。研究結果錶明,該工藝熱解效率高,熱解得到高純的MgO薄膜,沉積效率可達到3.2μm·min-1,薄膜顆粒粒徑處于10~60 nm之間,具有良好的光緻髮光性能;同時沉積工藝過程簡單,適閤大規模連續化生產。
아국염호자원봉부,기중위우청해적찰이한염호시아국최대적갑비생산기지。연이재갑비생산과정중부산적대량수록미석(MgCl2·6H2O)목전상득불도유효적이용,“미해”이경성위염호서수제갑후적수요문제。본문제출이고빈열등리자체위고온열원,강화수록미석적열해과정,동시장열해산물침적득도고부가치적MgO박막。연구결과표명,해공예열해효솔고,열해득도고순적MgO박막,침적효솔가체도3.2μm·min-1,박막과립립경처우10~60 nm지간,구유량호적광치발광성능;동시침적공예과정간단,괄합대규모련속화생산。
Salt lake resources are rich in China, and the Qarham salt lake in Qinghai Province is the largest potash fertilizer manufacturing base. However, a large amount of byproduct bischofite (MgCl2·6H2O) of the potassium fertilizer industry cannot be utilized effectively and are discarded back into the salt lakes. This has become the primary problem after extraction of potassium from salt lake. This paper presents a thermal plasma process for pyrolysis of bischofite. Thermal plasma was used as an ultra-high heat source to intensify the pyrolysis process. At the same time, the high temperature pyrolysis products were deposited to obtain high value-added MgO film. The deposition efficiency of MgO film was high, up to 3.2μm·min-1. The particle size on the film was between 10 and 60 nm, and the MgO film exhibited a strong ultraviolet-green photoluminescence emission under the excitation of 325 nm He-Ne laser. The thermal plasma technique is simple and suitable for large-scale continuous process.
