工程研究-跨学科视野中的工程
工程研究-跨學科視野中的工程
공정연구-과학과시야중적공정
Journal of Engineering Studies
2015年
3期
180-188
,共9页
曹建尉%王志%任丽会%赵庆朝
曹建尉%王誌%任麗會%趙慶朝
조건위%왕지%임려회%조경조
“加法型”工艺%“减法型”工艺%亚稳中间体%电石渣%冶硅废渣
“加法型”工藝%“減法型”工藝%亞穩中間體%電石渣%冶硅廢渣
“가법형”공예%“감법형”공예%아은중간체%전석사%야규폐사
“addition” process%“subtraction” process%metastable intermediate%carbide slag%silicon metallurgical slag
针对大宗化工冶金固废资源化过程,提出“加法型”与“减法型”高值化利用工艺,重点论述“加”与“减”的方法及两种工艺的共性关键过程——结晶过程,以及结晶过程中介稳中间体的控制及其作用。将“减法型”工艺应用于电石渣制纳米碳酸钙,通过物理除杂和化学除杂的复合除杂方法实现了电石渣资源化过程中的“减”,获得了无定形碳酸钙中间体的形成、稳定化方法,以及无定形碳酸钙对最终产物纳米碳酸钙粒度及分布的影响规律;将“加法型”工艺应用于冶硅废渣制高强耐磨抗腐蚀工程微晶玻璃中,以冶硅废渣为主要原料构建了新型体系,实现了冶硅废渣资源化过程中的“加”,得到亚稳态非晶基础玻璃中间体的稳定化机制,获得性能优异的冶金废渣微晶玻璃。
針對大宗化工冶金固廢資源化過程,提齣“加法型”與“減法型”高值化利用工藝,重點論述“加”與“減”的方法及兩種工藝的共性關鍵過程——結晶過程,以及結晶過程中介穩中間體的控製及其作用。將“減法型”工藝應用于電石渣製納米碳痠鈣,通過物理除雜和化學除雜的複閤除雜方法實現瞭電石渣資源化過程中的“減”,穫得瞭無定形碳痠鈣中間體的形成、穩定化方法,以及無定形碳痠鈣對最終產物納米碳痠鈣粒度及分佈的影響規律;將“加法型”工藝應用于冶硅廢渣製高彊耐磨抗腐蝕工程微晶玻璃中,以冶硅廢渣為主要原料構建瞭新型體繫,實現瞭冶硅廢渣資源化過程中的“加”,得到亞穩態非晶基礎玻璃中間體的穩定化機製,穫得性能優異的冶金廢渣微晶玻璃。
침대대종화공야금고폐자원화과정,제출“가법형”여“감법형”고치화이용공예,중점논술“가”여“감”적방법급량충공예적공성관건과정——결정과정,이급결정과정중개은중간체적공제급기작용。장“감법형”공예응용우전석사제납미탄산개,통과물리제잡화화학제잡적복합제잡방법실현료전석사자원화과정중적“감”,획득료무정형탄산개중간체적형성、은정화방법,이급무정형탄산개대최종산물납미탄산개립도급분포적영향규률;장“가법형”공예응용우야규폐사제고강내마항부식공정미정파리중,이야규폐사위주요원료구건료신형체계,실현료야규폐사자원화과정중적“가”,득도아은태비정기출파리중간체적은정화궤제,획득성능우이적야금폐사미정파리。
This paper suggests that chemical and metallurgical solid waste could be transformed into prod-ucts through “addition” and “subtraction” processes, focusing on the “addition” and “reduction” methods and their common key process - crystallization process, as well as the control and function of metastable intermediates in the crystallization process. The “subtraction” process can be applied to the extraction of nanometer calcium car-bonate from carbide slag, accomplished by physical and chemical cleaning , and the method of formation and sta-bilization of amorphous calcium carbonate intermediate can be obtained, together with knowledge on the effects of amorphous calcium carbonate on the particle size and the distribution of nano calcium carbonate. The “addition”process can be applied to the extraction of wear-resisting and anti-corrosion glass-ceramics from metallurgical solid waste, accomplished by building a new component system taking metallurgical silicon slag as the main raw material, and the method of formation and stabilization of amorphous metastable glass can be obtained, together with glass ceramics with excellent performance.
