hydrogenize
简明释义
英[/ˈhaɪdrəˌdʒɛnaɪz/]美[/ˈhaɪdrəˌdʒɛnaɪz/]
vt. 使与氢化合(等于 hydrogenate)
第 三 人 称 单 数 h y d r o g e n i z e s
现 在 分 词 h y d r o g e n i z i n g
过 去 式 h y d r o g e n i z e d
过 去 分 词 h y d r o g e n i z e d
英英释义
To introduce hydrogen into a compound or molecule, typically to saturate an unsaturated organic compound. | 将氢引入化合物或分子中,通常是为了使不饱和有机化合物饱和。 |
单词用法
同义词
| 氢化 | The process of hydrogenating oils is common in the food industry. | 在食品工业中,氢化油的过程很常见。 | |
| 饱和 | To achieve a saturated solution, you may need to hydrogenate the reactants. | 为了达到饱和溶液,您可能需要对反应物进行氢化。 |
反义词
例句
1.METHODS:This compound was synthesize by steps of ammonolysis, hydrogenize, diazotization and coupling from 4 nitrobenzoyl chloride.
方法:以对硝基苯甲酰氯为原料,经氨解、氢化、重氮化及偶合四步反应得到了巴柳氮。
2.The reaction conditions for the synthesis were studied. The optimum parameters were given. The new technology for the hydrogenize reduction was researched.
探讨了合成工艺条件,提出了优化工艺参数,研究了加氢还原新工艺。
3.The reaction conditions for the synthesis were studied. The optimum parameters were given. The new technology for the hydrogenize reduction was researched.
探讨了合成工艺条件,提出了优化工艺参数,研究了加氢还原新工艺。
4.The chemist decided to hydrogenize the unsaturated fats to create a more stable product.
化学家决定氢化不饱和脂肪,以创造出更稳定的产品。
5.In the laboratory, they used a catalyst to hydrogenize the compound at room temperature.
在实验室中,他们使用催化剂在室温下氢化该化合物。
6.To improve the fuel efficiency, engineers often hydrogenize the hydrocarbons in the processing plant.
为了提高燃料效率,工程师们通常在加工厂中氢化烃类物质。
7.Researchers are exploring ways to hydrogenize carbon dioxide to produce renewable fuels.
研究人员正在探索将二氧化碳氢化以生产可再生燃料的方法。
8.The process to hydrogenize vegetable oils is common in food production.
在食品生产中,氢化植物油的过程是很常见的。
作文
The process of chemical reactions is fascinating, especially when we delve into the transformations that elements undergo. One term that often comes up in discussions about organic chemistry and industrial processes is hydrogenize. To hydrogenize means to add hydrogen to a compound or molecule, which can significantly alter its properties and reactivity. This process is crucial in various applications, particularly in the production of fuels and the synthesis of chemicals. For instance, in the petroleum industry, hydrogenization is a key step in refining crude oil. Here, hydrogen is added to unsaturated hydrocarbons to convert them into saturated hydrocarbons, resulting in more stable and energy-dense fuels. The importance of this process cannot be overstated, as it helps in producing gasoline and diesel that power our vehicles and machinery.Moreover, hydrogenizing unsaturated fats is another application that has gained popularity in the food industry. When oils are hydrogenized, they become solid at room temperature, which improves the texture and shelf life of products like margarine and shortening. However, this process also raises health concerns, as the formation of trans fats during hydrogenization can lead to adverse health effects. Therefore, understanding the implications of hydrogenizing fats is essential for both producers and consumers.In addition to these practical applications, the concept of hydrogenization also plays a significant role in environmental science. For example, researchers are exploring ways to hydrogenize carbon dioxide to produce useful hydrocarbons, effectively recycling waste and reducing greenhouse gas emissions. This innovative approach not only addresses energy needs but also contributes to sustainability efforts.Furthermore, in the realm of renewable energy, hydrogenization is being investigated as a method for storing excess energy generated from renewable sources like solar and wind. By hydrogenizing water through electrolysis, we can produce hydrogen fuel that can be stored and used later, providing a reliable energy source and reducing our dependence on fossil fuels.In conclusion, the term hydrogenize encapsulates a critical process in chemistry and industry that has far-reaching implications. Whether it's enhancing fuel efficiency, improving food products, or contributing to sustainable energy solutions, hydrogenization is a pivotal concept that deserves our attention. As we continue to innovate and seek solutions to modern challenges, the role of hydrogenizing compounds will undoubtedly remain significant, highlighting the need for ongoing research and education in this field.
化学反应的过程是迷人的,尤其是当我们深入探讨元素所经历的转变时。一个在有机化学和工业过程中经常出现的术语是氢化。氢化的意思是向化合物或分子中添加氢,这可以显著改变其性质和反应性。这个过程在各种应用中至关重要,特别是在燃料生产和化学合成中。例如,在石油工业中,氢化是精炼原油的关键步骤。在这里,氢被添加到不饱和烃中,将其转化为饱和烃,从而产生更稳定和能量密集的燃料。这一过程的重要性不言而喻,因为它有助于生产为我们的车辆和机械提供动力的汽油和柴油。此外,氢化不饱和脂肪是食品工业中另一个日益流行的应用。当油被氢化时,它们在室温下变为固体,这改善了人造黄油和起酥油等产品的质地和保质期。然而,这个过程也引发了健康问题,因为在氢化过程中形成的反式脂肪可能导致不良健康影响。因此,理解氢化脂肪的影响对于生产者和消费者都是至关重要的。除了这些实际应用外,氢化的概念在环境科学中也扮演着重要角色。例如,研究人员正在探索如何将二氧化碳氢化以生产有用的烃,有效回收废物并减少温室气体排放。这种创新的方法不仅解决了能源需求,还为可持续发展努力做出了贡献。此外,在可再生能源领域,氢化也被研究作为储存来自太阳能和风能等可再生资源的过剩能源的一种方法。通过电解水来氢化,我们可以生产可以储存和稍后使用的氢燃料,从而提供可靠的能源来源并减少我们对化石燃料的依赖。总之,氢化这一术语概括了化学和工业中一个关键的过程,其影响深远。无论是提高燃料效率、改善食品产品,还是为可持续能源解决方案做出贡献,氢化都是一个重要的概念,值得我们关注。随着我们继续创新并寻求现代挑战的解决方案,氢化化合物的作用无疑将保持重要性,突显出在这一领域持续研究和教育的必要性。
