Watermelon Peels(西瓜皮)研究综述
Watermelon Peels 西瓜皮 - This research determines the effects of temperature, residence time and mixing ratio on hydrochar yield and energy content from the co- hydrothermal carbonization (co-HTC) of pineapple and watermelon peels. [1] Methods: The present study evaluated the proximate, minerals, and amino acid compositions of cassava and watermelon peels using standard procedures. [2] Methods : The optimization of the biocatalytic process was evaluated with D-optimal model of response surface methodology (RSM) design, where input variables in the system were garbage enzymes solutions of orange and watermelon peels (biocatalysts) and two different pollution levels. [3] Like other agricultural countries, bulk quantities of watermelon peels (WMP) are disposed-off in environment as waste in Pakistan and appropriate management of this waste is the need of hour to save environment from pollution. [4] In this study, the watermelon peels (WP) were used as an adsorbent without any chemical or physical treatment for Cu2+ removal from the aqueous solution. [5] Herein, biomass derived Mo2C/C electrocatalysts based on watermelon peels were fabricated for HER application through a simplistic two step approach and easy pyrolysis procedure. [6] Herein, we report a carbon-based nanocomposite (denoted as CCW-x, x stands for the calcination temperature) derived from watermelon peels and CoCl2, and the as-synthesized CCW-x is used as the electrocatalyst. [7] The fruit garbage used were orange and watermelon peels, which were allowed to ferment for 90 days for the derivation of enzymes. [8] 2014), watermelon peels (Gin et al. [9] In this study, watermelon peels (WP) were directly pyrolyzed under N2 atmosphere to produce novel carbon-based ORR electrocatalysts. [10] The fluid system was reconfigured to include bio-based (Citrullus Lanatus peels (watermelon peels)) nanoparticles, dispersed in Capella D oil at different concentrations of (0. [11]本研究确定了温度、停留时间和混合比对菠萝和西瓜皮的水热碳化 (co-HTC) 中水炭产量和能量含量的影响。 [1] 方法:本研究使用标准程序评估了木薯和西瓜皮的近似成分、矿物质和氨基酸成分。 [2] 方法:生物催化过程的优化采用响应面法 (RSM) 设计的 D 最优模型进行评估,其中系统中的输入变量是橙子和西瓜皮(生物催化剂)的垃圾酶溶液和两种不同的污染水平。 [3] 与其他农业国家一样,在巴基斯坦,大量西瓜皮 (WMP) 作为废物被丢弃在环境中,需要对这些废物进行适当管理,以保护环境免受污染。 [4] 在这项研究中,西瓜皮 (WP) 被用作吸附剂,没有任何化学或物理处理从水溶液中去除 Cu2+。 [5] 在此,基于西瓜皮的生物质衍生的 Mo2C/C 电催化剂通过简单的两步方法和简单的热解过程制造用于 HER 应用。 [6] 在此,我们报道了一种源自西瓜皮和 CoCl2 的碳基纳米复合材料(表示为 CCW-x,x 代表煅烧温度),并将合成的 CCW-x 用作电催化剂。 [7] 使用的水果垃圾是橘子皮和西瓜皮,经过90天的发酵,衍生出酶。 [8] 2014), 西瓜皮 (Gin et al. [9] 在这项研究中,西瓜皮 (WP) 在 N2 气氛下直接热解以生产新型碳基 ORR 电催化剂。 [10] 流体系统被重新配置,以包括生物基(Citrullus Lanatus 果皮(西瓜皮))纳米颗粒,分散在不同浓度的 Capella D 油中(0. [11]