中国烟草学报
中國煙草學報
중국연초학보
ACTA TABACARIA SINICA
2014年
5期
19-24
,共6页
殷艳飞%马迅%王保兴%陈岭峰%郝明显%刘晶%向海英%王建%王浩雅
慇豔飛%馬迅%王保興%陳嶺峰%郝明顯%劉晶%嚮海英%王建%王浩雅
은염비%마신%왕보흥%진령봉%학명현%류정%향해영%왕건%왕호아
造纸法再造烟叶%CO%焦油
造紙法再造煙葉%CO%焦油
조지법재조연협%CO%초유
paper-making process reconstituted tobacco%carbon monoxide (CO)%tar
为探索影响造纸法再造烟叶CO和焦油释放量的主要因素,考察了不同涂布率与造纸法再造烟叶CO和焦油释放量的相关性,研究了烟梗与碎片比例、片基定量、外加纤维种类、填料种类以及碳酸钙用量对片基CO和焦油释放量的影响。结果表明:(1)CO释放量与涂布率呈负相关,而焦油释放量与涂布率呈正相关;(2)一定范围内,烟梗与碎片比例增加或者使用未漂白的外加纤维都会增加片基CO和焦油释放量,可能是烟梗和未漂白纤维中含有较高的木质素或者果胶;(3)增加碳酸钙用量可使单位质量片基中可燃烧的有机物质减少,降低CO和焦油释放量;(4)降低片基定量或者改善填料种类可以改变片基微观结构,降低片基CO和焦油释放量。因此,在保证产品品质和加工工艺的前提下,可综合考虑上述方法降低造纸法再造烟叶烟气中CO和焦油含量。
為探索影響造紙法再造煙葉CO和焦油釋放量的主要因素,攷察瞭不同塗佈率與造紙法再造煙葉CO和焦油釋放量的相關性,研究瞭煙梗與碎片比例、片基定量、外加纖維種類、填料種類以及碳痠鈣用量對片基CO和焦油釋放量的影響。結果錶明:(1)CO釋放量與塗佈率呈負相關,而焦油釋放量與塗佈率呈正相關;(2)一定範圍內,煙梗與碎片比例增加或者使用未漂白的外加纖維都會增加片基CO和焦油釋放量,可能是煙梗和未漂白纖維中含有較高的木質素或者果膠;(3)增加碳痠鈣用量可使單位質量片基中可燃燒的有機物質減少,降低CO和焦油釋放量;(4)降低片基定量或者改善填料種類可以改變片基微觀結構,降低片基CO和焦油釋放量。因此,在保證產品品質和加工工藝的前提下,可綜閤攷慮上述方法降低造紙法再造煙葉煙氣中CO和焦油含量。
위탐색영향조지법재조연협CO화초유석방량적주요인소,고찰료불동도포솔여조지법재조연협CO화초유석방량적상관성,연구료연경여쇄편비례、편기정량、외가섬유충류、전료충류이급탄산개용량대편기CO화초유석방량적영향。결과표명:(1)CO석방량여도포솔정부상관,이초유석방량여도포솔정정상관;(2)일정범위내,연경여쇄편비례증가혹자사용미표백적외가섬유도회증가편기CO화초유석방량,가능시연경화미표백섬유중함유교고적목질소혹자과효;(3)증가탄산개용량가사단위질량편기중가연소적유궤물질감소,강저CO화초유석방량;(4)강저편기정량혹자개선전료충류가이개변편기미관결구,강저편기CO화초유석방량。인차,재보증산품품질화가공공예적전제하,가종합고필상술방법강저조지법재조연협연기중CO화초유함량。
Correlation between coating coverage rate and CO and tar delivery in paper-making reconstituted tobacco (PRT) smoke was studied. Effects of stem to scraps ratio, grammage, fibre and filler, content of calcium carbonate on CO and tar delivery were further investigated. Results indicated that:(1)Increasing coatings coverage rate resulted in decreased CO delivery and increased tar delivery;(2) High stem to scraps ratio and unbleached fibre led to a higher CO and tar delivery, which may be due to high content of lignin and pectin in stem and unbleached fibre;(3) Adding calcium carbonate to the sheet base reduced flammable organic matter, thus resulting in lower CO and tar delivery;(4) Decreased grammage or improved filler reduced CO and tar delivery by changing microstructure of sheet base. These methods can be synthetically used to reduce CO and tar delivery in paper-making reconstituted tobacco to ensure product quality and process feasibility.