燃料化学学报
燃料化學學報
연료화학학보
JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY
2014年
8期
913-921
,共9页
胡俊豪%黎阳%杨海平%杨晴%邵敬爱%王贤华%陈汉平
鬍俊豪%黎暘%楊海平%楊晴%邵敬愛%王賢華%陳漢平
호준호%려양%양해평%양청%소경애%왕현화%진한평
煤%热解%催化%金属离子%HCN%NH3
煤%熱解%催化%金屬離子%HCN%NH3
매%열해%최화%금속리자%HCN%NH3
coal%pyrolysis%catalytic effect%metal ions%HCN%NH3
选择3种典型煤种为研究对象,通过脱灰和添加含Fe、Ca、Na等金属盐,研究煤热解过程中金属离子对含氮气相产物析出特性的影响以及与煤种和温度的交互关联。结果表明,脱灰煤HCN和NH3的产率均比原煤样下降,而随温度的升高HCN的产率逐渐增大,NH3的产率则先增加后减小,在800℃有最大值。金属离子对不同变质程度煤的含氮气相产物析出的催化作用不同;Fe和Na抑制中等变质程度煤HCN的析出,而对低变质程度煤起促进作用,Ca则对HCN的析出均有一定的促进作用。而对于NH3的形成,3种离子均对中等变质程度煤有抑制作用,而对低变质程度的煤则有促进作用。不同金属离子对HCN和NH3析出的催化作用均有一定的范围。煤热解时含氮气相产物的析出是煤中固有多种金属离子共同作用的结果。
選擇3種典型煤種為研究對象,通過脫灰和添加含Fe、Ca、Na等金屬鹽,研究煤熱解過程中金屬離子對含氮氣相產物析齣特性的影響以及與煤種和溫度的交互關聯。結果錶明,脫灰煤HCN和NH3的產率均比原煤樣下降,而隨溫度的升高HCN的產率逐漸增大,NH3的產率則先增加後減小,在800℃有最大值。金屬離子對不同變質程度煤的含氮氣相產物析齣的催化作用不同;Fe和Na抑製中等變質程度煤HCN的析齣,而對低變質程度煤起促進作用,Ca則對HCN的析齣均有一定的促進作用。而對于NH3的形成,3種離子均對中等變質程度煤有抑製作用,而對低變質程度的煤則有促進作用。不同金屬離子對HCN和NH3析齣的催化作用均有一定的範圍。煤熱解時含氮氣相產物的析齣是煤中固有多種金屬離子共同作用的結果。
선택3충전형매충위연구대상,통과탈회화첨가함Fe、Ca、Na등금속염,연구매열해과정중금속리자대함담기상산물석출특성적영향이급여매충화온도적교호관련。결과표명,탈회매HCN화NH3적산솔균비원매양하강,이수온도적승고HCN적산솔축점증대,NH3적산솔칙선증가후감소,재800℃유최대치。금속리자대불동변질정도매적함담기상산물석출적최화작용불동;Fe화Na억제중등변질정도매HCN적석출,이대저변질정도매기촉진작용,Ca칙대HCN적석출균유일정적촉진작용。이대우NH3적형성,3충리자균대중등변질정도매유억제작용,이대저변질정도적매칙유촉진작용。불동금속리자대HCN화NH3석출적최화작용균유일정적범위。매열해시함담기상산물적석출시매중고유다충금속리자공동작용적결과。
The influence of metal ions on the release characteristics of nitrogenous pollutants from pyrolysis of 3 typical coals with different ranks were studied by demineralization and adding metal salts of Fe, Ca and Na. The interactions of coal type and temperature during coal pyrolysis were explored. The results show that yields of HCN and NH3 from the demineralized coals are lower than that from the raw coals. The yield of HCN increases gradually with the increase of temperature, while the yield of NH3 increases first and then decreases, with a maximum value at 800℃. Catalytic effects of metal ions on nitrogenous pollutants release from different ranks of coals are different. Fe and Na restrain HCN release from medium rank coals, but promote that from low rank coals, while Ca facilitates the HCN release from all coals to some extent. Three metal ions all inhibit the release of NH3 from medium rank coals, but promote that for low rank coals. Catalysis of each metal ion on yield of HCN and NH3 has its own range of effectiveness. Release of nitrogenous pollutants during coal pyrolysis is influenced by the interactions of many kinds of inherent metal ions in coals.
