In order to improve the exterior and interior quality of Jinlan pomelo,the suitable paper bag for Jinlan pomelo were screened through different bagging treatments involving single layer yellow paper bag,double layer y...In order to improve the exterior and interior quality of Jinlan pomelo,the suitable paper bag for Jinlan pomelo were screened through different bagging treatments involving single layer yellow paper bag,double layer yellow paper bag,three layer yellow paper bag,single layer red paper bag,double layer red paper bag,three layer red paper bag and no bagging.The results showed that bagging could increase fruit weight and fruit brightness,promote the coloring of fruit and improve fruit appearance quality.The titratable acid content of fruit decreased and the sugaracid ratio and soluble solid-acid ratio of fruit increased after the treatment of yellow paper bags.Double layer yellow paper bag could significantly increase the VC content,which had better effect on improving the exterior quality and interior quality than other treatments.This study provided reference for selecting the paper bag type for Jinlan pomelo.展开更多
Air pollution induces significant health risks to individuals exposed to high levels of pollutants concentration. For ground vehicles, pollutants infiltrate the car cabin through the ventilation system, leading to pot...Air pollution induces significant health risks to individuals exposed to high levels of pollutants concentration. For ground vehicles, pollutants infiltrate the car cabin through the ventilation system, leading to potential health issues. To address this problem, a project was undertaken to develop a protocol for characterizing in-cabin air quality. The study involved a closed chamber (the bubble) where its internal multiphase flow has been optimized to create controlled polluted atmospheres. Experiments were conducted to optimize the positioning of the stirring fan and particle generation source, ensuring a homogeneous distribution of fine and ultrafine particles. This study demonstrated the feasibility of implementing a platform dedicated to characterizing the vehicles’ in-cabin air quality under controlled conditions. It allows a better understanding of the dynamics of particle infiltration and the establishment of an optimized protocol for simultaneous measurements of indoor and outdoor concentrations.展开更多
基金Supported by Modern Agricultural Scientific Research Collaborative Innovation Special Project of Jiangxi Province(JXXTCX201904-04)Major Science and Technology Research and Development Project of Jiangxi Province(20203ABC28W014)+1 种基金National Modern Agricultural Industry Technology Support(CARS-26)Modern Agricultural Industrial Technology System Construction Special Fund of Jiangxi Province(JXARS-07)。
文摘In order to improve the exterior and interior quality of Jinlan pomelo,the suitable paper bag for Jinlan pomelo were screened through different bagging treatments involving single layer yellow paper bag,double layer yellow paper bag,three layer yellow paper bag,single layer red paper bag,double layer red paper bag,three layer red paper bag and no bagging.The results showed that bagging could increase fruit weight and fruit brightness,promote the coloring of fruit and improve fruit appearance quality.The titratable acid content of fruit decreased and the sugaracid ratio and soluble solid-acid ratio of fruit increased after the treatment of yellow paper bags.Double layer yellow paper bag could significantly increase the VC content,which had better effect on improving the exterior quality and interior quality than other treatments.This study provided reference for selecting the paper bag type for Jinlan pomelo.
文摘Air pollution induces significant health risks to individuals exposed to high levels of pollutants concentration. For ground vehicles, pollutants infiltrate the car cabin through the ventilation system, leading to potential health issues. To address this problem, a project was undertaken to develop a protocol for characterizing in-cabin air quality. The study involved a closed chamber (the bubble) where its internal multiphase flow has been optimized to create controlled polluted atmospheres. Experiments were conducted to optimize the positioning of the stirring fan and particle generation source, ensuring a homogeneous distribution of fine and ultrafine particles. This study demonstrated the feasibility of implementing a platform dedicated to characterizing the vehicles’ in-cabin air quality under controlled conditions. It allows a better understanding of the dynamics of particle infiltration and the establishment of an optimized protocol for simultaneous measurements of indoor and outdoor concentrations.
