广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2014年
23期
101-103
,共3页
电化学%水处理%结晶形态
電化學%水處理%結晶形態
전화학%수처리%결정형태
electrochemical%water treatment%crystal morphology
研究在电化学水处理中,电场对CaCO3结晶形态的影响。正常情况下, CaCO3形成稳定方解石型,其晶型通常为排列整齐、结构致密、质地坚硬的方解石型,难以去除。但在电场效应作用下,电流为0.3 A、极板间距为50 mm时,电场力能有效地促使CaCO3结晶形式转变为较为疏松的纹石型和球霰石型晶体,使其不容易附着在管道壁上且便于剥离去除。
研究在電化學水處理中,電場對CaCO3結晶形態的影響。正常情況下, CaCO3形成穩定方解石型,其晶型通常為排列整齊、結構緻密、質地堅硬的方解石型,難以去除。但在電場效應作用下,電流為0.3 A、極闆間距為50 mm時,電場力能有效地促使CaCO3結晶形式轉變為較為疏鬆的紋石型和毬霰石型晶體,使其不容易附著在管道壁上且便于剝離去除。
연구재전화학수처리중,전장대CaCO3결정형태적영향。정상정황하, CaCO3형성은정방해석형,기정형통상위배렬정제、결구치밀、질지견경적방해석형,난이거제。단재전장효응작용하,전류위0.3 A、겁판간거위50 mm시,전장력능유효지촉사CaCO3결정형식전변위교위소송적문석형화구산석형정체,사기불용역부착재관도벽상차편우박리거제。
The electrochemical water treatment was studied and the electric field impacted the crystal morphology of CaCO3.Under normal circumstances, CaCO3 to form stable calcite type, its crystal structure was usually neat rows, compact structure, hard calcite type, and difficult to remove.But under the electric field effect, current of 0.3 A plate spacing was 50 mm.Electric field force can effectively encourage CaCO3 crystal form into a relatively loose grain stone and vaterite crystal, which made it not easy to adhere to the pipe wall and facilitate stripping removal.