Watermelon Peel(西瓜皮)研究综述
Watermelon Peel 西瓜皮 - , lettuce, taro, and watermelon peel) with different components at various temperatures (i. [1] 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. [2] Methods: The present study evaluated the proximate, minerals, and amino acid compositions of cassava and watermelon peels using standard procedures. [3] 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. [4] 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. [5] 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. [6] This work aimed to investigate the suitability of using watermelon peels powder (WPP) and crumb rubber (CR) as alternatives to fillers flame retardant chemicals to reduce cost. [7] The Indonesian pectin manufacturing industry is underdeveloped, and pectin is imported to meet its increasing demand; we attempted to isolate pectins from various fruit peels, such as orange peel (OP), papaya peel (PP), mango peel (MP), watermelon peel (WP), and chayote peel (CP) and investigated their chemical characteristics (equivalent weight of the extracted pectins and their moisture, ash, methoxyl, and galacturonic acid (GA) contents). [8] We prepared a pH-sensitive indicator film incorporating beetroot extract (BTE, 0, 1, 2, and 3 %, w/w) encapsulated in pectin from watermelon peel (WMP) to monitor quality changes of chilled beef during storage. [9] 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. [10] 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. [11] The fruit garbage used were orange and watermelon peels, which were allowed to ferment for 90 days for the derivation of enzymes. [12] 2014), watermelon peels (Gin et al. [13] In this study, watermelon peels (WP) were directly pyrolyzed under N2 atmosphere to produce novel carbon-based ORR electrocatalysts. [14] 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. [15] The results of the t-test show the value of p = 0,000 <0,05, meaning that there is an increase in knowledge about the nata of watermelon peel. [16] dead leaflets, curry tree carbon, watermelon peel, rice husk, tree sawdust, natural and activated fluorapatite, zeolite, eggshell and sugarcane bagasse. [17] Kiwi and watermelon peels extract did not show any anticancer activity against the different tested cell lines. [18] The results of the t-test show the value of p = 0,000 <0,05, meaning that there is an increase in knowledge about the nata of watermelon peel. [19]、生菜、芋头和西瓜皮)在不同温度下具有不同的成分(即。 [1] 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。 [2] 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。 [3] 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。 [4] 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,对这些废物进行适当管理需要数小时才能使环境免受污染。 [5] 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+。 [6] 这项工作旨在研究使用西瓜皮粉 (WPP) 和橡胶粒 (CR) 作为填充剂阻燃化学品的替代品以降低成本的适用性。 [7] 印尼果胶制造业不发达,进口果胶以满足其日益增长的需求;我们试图从橘皮(OP)、木瓜皮(PP)、芒果皮(MP)、西瓜皮(WP)和佛手瓜皮(CP)等各种果皮中分离果胶,并研究它们的化学特性(当量重量)提取的果胶及其水分、灰分、甲氧基和半乳糖醛酸 (GA) 含量)。 [8] 我们制备了一种 pH 敏感指示膜,其中包含甜菜根提取物(BTE,0、1、2 和 3 %,w/w),包裹在西瓜皮果胶 (WMP) 中,以监测冷藏牛肉在储存过程中的质量变化。 [9] 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。 [10] 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。 [11] 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。 [12] 2014), 西瓜皮 (Gin et al. [13] 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。 [14] 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. [15] t 检验的结果显示 p = 0,000 <0,05 的值,这意味着对西瓜皮 nata 的了解有所增加。 [16] 死叶、咖喱树碳、西瓜皮、稻壳、树锯末、天然和活性氟磷灰石、沸石、蛋壳和甘蔗渣。 [17] 猕猴桃和西瓜皮提取物对不同的测试细胞系没有显示出任何抗癌活性。 [18] t 检验的结果显示 p = 0,000 <0,05 的值,这意味着对西瓜皮 nata 的了解有所增加。 [19]
watermelon peel waste 西瓜皮废料
We report the synthesis of carbon nanodots (Cdots) from watermelon peel waste. [1] In the current study, eco-friendly superabsorbent hydrogel based on zinc oxide nanoparticles (ZnO-NPs) and watermelon peel waste (WPW) was utilized to protect the plant against Fusarium wilt. [2] Watermelon peel waste (WPW) is a zero value material containing a high amount of nutrients that could be utilized in microbial growth medium production. [3]我们报告了从西瓜皮废料中合成碳纳米点 (Cdots)。 [1] 在目前的研究中,基于氧化锌纳米颗粒(ZnO-NPs)和西瓜皮废料(WPW)的环保型高吸水性水凝胶被用于保护植物免受枯萎病的侵害。 [2] 西瓜皮废料 (WPW) 是一种零价值材料,含有大量可用于微生物生长培养基生产的营养物质。 [3]