1) apparent quantum yield
表观量子产率
1.
As the result of reasonable fixation configuration and appropriate catalytic activity of immobilized catalyst,the apparent quantum yield of phenol degradation in the reactor coul.
由于固定化催化剂活性良好、装填结构合理,本装置降解苯酚表观量子产率可以达到相同结构悬浆催化体系反应器的1/2,因而具有良好的实用性。
2) Apparent quantum yield
表观量子产量
1.
)leaves as represented by the maximum apparent quantum yield(Φi) and mearsured with an portable IRGA LCA-2,ADC,U.
在5~10月的晴天,以最大表观量子产量Φi表示的温州蜜柑光合效率上午从测定开始时起持续下降,下午逐渐回升,与光强和叶温的日变化大致是镜象反相关。
3) Apparent quantum efficiency
表观量子效率
1.
(2) the saturated light intensity and apparent quantum efficiency(AQE) were highest in the morning, lowest at noon, and raised in a degree in the afternoon.
(2)一天分时段光响应试验表明,饱和光强和表观量子效率上午最高,中午最低,下午有所上升。
4) Apparent quantum yield
表观量子效率
1.
002),the apparent quantum yield were(0.
002)、表观量子效率(AQY)分别为(0。
2.
37 μmol CO_2·m~ -2 ·s~ -1 ,and its apparent quantum yield,carboxylation efficiency and water use efficiency were the highest amounting to 0.
37μmol CO2·m-2·s-1,其光合作用表观量子效率、羧化效率和水分利用效率也最高,分别为0。
3.
The results indicated that in early summer sunny days, net photosynthetic rates (A), apparent quantum yield (AQY), carboxylation efficiency (CE) and saturated light intensity in the old leaves from last winter (two-year-old leaves) were higher than those in sixteen-day-old leaves (one-year-old leaves), but CO 2 compensation points and light compe.
结果表明 :在初夏晴天 ,上年越冬叶片 (下称二年生叶 )的光合速率、表观量子效率、羧化效率和饱和光强比展叶约 16d的一年生叶高 ,CO2 补偿点和光补偿点比一年生叶低 ,两者的净光合速率日进程曲线均为”双峰”型 ,午间胞间CO2 浓度上升表明 ,此时净光合速率下降主要受非气孔限制因素的影响 。
5) apparent quantum yield
表观光量子效率
1.
The light saturation and compensation points,and apparent quantum yield of P.
s),表观光量子效率(AQY)0。
2.
The apparent quantum yield on March to April of 1 year needle of slash pine\'s half-sib and the apparent quantum yield on April of 2 year needle of slash pine\'s half-sib was the highest in a year.
湿地松各半同胞家系1龄针叶在全年中以3至4月份、2龄针叶以4月份的表观光量子效率为最高,所有针叶以5月份最低,各家系1龄、2龄针叶的羧化效率以5月最低,8至9月最高。
6) observed yield
表观产率
1.
The results showed that the observed yield declined distinctly and excess sludge production can be reduced about 20%~50% after 1~30 min of ultrasonic treatment with power level 0.
50 W/mL范围内,经过1~30 m in的超声波处理,系统表观产率显著下降,剩余污泥的产量可以减少20%~50%左右。
补充资料:量子产率
分子式:
CAS号:
性质:体系吸收每一个光子所引发的某种事件的数目。符号为ψ,Y。积分量子产率为Ф=事件数/吸收光子数。对于光化学反应,ψ=反应物消耗(或产物产生)的数量/吸收光子数量。微分量子产率为φ=(d[x]/dt)/n。式中d[x]/dt为某可测量量的变率,n为单位时间内所吸收的光子数(摩尔或爱因斯坦)。ψ可用于光物理过程或光化学反应。
CAS号:
性质:体系吸收每一个光子所引发的某种事件的数目。符号为ψ,Y。积分量子产率为Ф=事件数/吸收光子数。对于光化学反应,ψ=反应物消耗(或产物产生)的数量/吸收光子数量。微分量子产率为φ=(d[x]/dt)/n。式中d[x]/dt为某可测量量的变率,n为单位时间内所吸收的光子数(摩尔或爱因斯坦)。ψ可用于光物理过程或光化学反应。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条