desalinize
简明释义
英[diːˈsælɪnaɪz]美[diˈselɪˌnaɪz]
vt. 除去盐分;淡化海水
第 三 人 称 单 数 d e s a l i n a t e s
现 在 分 词 d e s a l i n i z i n g
过 去 式 d e s a l i n i z e d
过 去 分 词 d e s a l i n i z e d
英英释义
To remove salt from seawater or brackish water to make it suitable for human consumption or irrigation. | 去除海水或咸水中的盐分,使其适合人类饮用或灌溉。 |
单词用法
对盐水进行脱盐 | |
为饮用水进行脱盐 | |
脱盐厂 | |
反渗透脱盐 | |
经济有效的脱盐 | |
对海洋水进行脱盐 | |
脱盐技术 | |
脱盐方法 | |
脱盐的环境影响 | |
对咸淡水进行脱盐 |
同义词
反义词
| 盐化 | The process of salinizing the soil can lead to decreased agricultural productivity. | 盐化土壤的过程可能导致农业生产力下降。 | |
| 盐 | 水体中过多的盐分会危害水生生物。 |
例句
1.I know, time can desalinize everything, cure all pain of injury, but I know how often does it need also either, I could put you in the corner of memory, no longer touch.
我知道,时间可以淡化一切,医治一切的伤痛,但是我也不知道还需要多久的时间,我才能把你给放在记忆的角落里,不再碰触。
2.I know, time can desalinize everything, cure all pain of injury, but I know how often does it need also either, I could put you in the corner of memory, no longer touch.
我知道,时间可以淡化一切,医治一切的伤痛,但是我也不知道还需要多久的时间,我才能把你给放在记忆的角落里,不再碰触。
3.Scientists are developing methods to desalinize water more efficiently.
科学家们正在开发更高效的水脱盐方法。
4.The government invested in technology to desalinize ocean water.
政府投资于技术以脱盐海水。
5.The new plant will desalinize seawater to provide fresh drinking water for the community.
新工厂将脱盐海水,为社区提供饮用水。
6.Many countries are looking to desalinize their water supply to combat drought.
许多国家正在寻求脱盐水源以应对干旱。
7.In arid regions, it is crucial to desalinize water for agricultural use.
在干旱地区,脱盐水用于农业是至关重要的。
作文
Water is one of the most essential resources on our planet. However, with the growing population and climate change, fresh water sources are becoming increasingly scarce. This situation has led scientists and engineers to explore various methods to obtain fresh water from alternative sources. One of the most promising solutions is the process to desalinize 脱盐 seawater. In this essay, we will discuss the importance of desalinization 脱盐, its methods, and its potential impact on global water supply.To begin with, desalinization 脱盐 is the process of removing salt and other impurities from seawater to make it suitable for human consumption and irrigation. This process is particularly important in arid regions where fresh water is limited. For instance, countries like Saudi Arabia and the United Arab Emirates rely heavily on desalinized 脱盐 water to meet their domestic and agricultural needs. The ability to convert seawater into fresh water can significantly alleviate water scarcity issues in these areas.There are several methods used to desalinize 脱盐 seawater, with reverse osmosis being the most common technique. This method involves pushing seawater through a semi-permeable membrane that allows water molecules to pass while blocking salt and other contaminants. Another method is thermal distillation, which involves heating seawater until it evaporates, leaving the salt behind. The vapor is then condensed back into liquid form, resulting in fresh water. Both methods have their advantages and disadvantages, but they share the same goal: to provide a sustainable source of fresh water.The environmental impact of desalinization 脱盐 is a topic of ongoing debate. While it can provide much-needed water in dry regions, the process can also have negative effects on marine ecosystems. The intake of seawater can harm aquatic life, and the discharge of concentrated brine back into the ocean can increase salinity levels, potentially disrupting local habitats. Therefore, it is crucial to develop desalinization 脱盐 technologies that minimize environmental harm while maximizing efficiency.Moreover, the cost of desalinization 脱盐 is another significant consideration. The energy-intensive nature of the process can make it expensive, especially in regions where energy resources are limited. However, advancements in technology are helping to reduce these costs. For example, the use of renewable energy sources, such as solar or wind power, can make desalinization 脱盐 more sustainable and economically viable.In conclusion, desalinization 脱盐 presents a viable solution to the global water crisis. By converting seawater into fresh water, we can address the increasing demand for this precious resource. However, it is essential to consider the environmental impacts and costs associated with the process. As technology continues to advance, we must strive to implement desalinization 脱盐 methods that are efficient, sustainable, and environmentally friendly. Only then can we ensure a secure water future for generations to come.
水是我们星球上最重要的资源之一。然而,随着人口增长和气候变化,淡水资源变得越来越稀缺。这种情况促使科学家和工程师探索各种方法,以从替代来源获取淡水。其中一个最有前景的解决方案是将海水进行脱盐desalinize处理。在本文中,我们将讨论脱盐desalinization的重要性、其方法及其对全球水供应的潜在影响。首先,脱盐desalinization是去除海水中的盐和其他杂质,使其适合人类消费和灌溉的过程。这一过程在淡水有限的干旱地区尤其重要。例如,沙特阿拉伯和阿拉伯联合酋长国等国家在满足其家庭和农业需求方面严重依赖脱盐desalinized水。将海水转化为淡水的能力可以显著缓解这些地区的水资源短缺问题。有几种方法用于脱盐desalinize海水,其中反渗透是最常用的技术。这种方法涉及将海水通过半透膜,允许水分子通过,同时阻挡盐和其他污染物。另一种方法是热蒸馏,它涉及加热海水,直到其蒸发,留下盐分。然后将蒸气冷凝回液态,得到淡水。这两种方法各有优缺点,但它们的目标是相同的:提供可持续的淡水来源。脱盐desalinization的环境影响是一个持续辩论的话题。虽然它可以在干旱地区提供急需的水源,但该过程也可能对海洋生态系统产生负面影响。海水的摄取可能会伤害水生生物,而浓缩盐水的排放可能会增加盐度,从而可能扰乱当地栖息地。因此,开发能够最大限度减少环境危害并提高效率的脱盐desalinization技术至关重要。此外,脱盐desalinization的成本也是一个重要考虑因素。该过程的高能耗特性可能使其成本高昂,尤其是在能源资源有限的地区。然而,技术的进步正在帮助降低这些成本。例如,使用可再生能源,如太阳能或风能,可以使脱盐desalinization变得更加可持续和经济可行。总之,脱盐desalinization为全球水危机提供了可行的解决方案。通过将海水转化为淡水,我们可以应对对这一宝贵资源日益增长的需求。然而,必须考虑与该过程相关的环境影响和成本。随着技术的不断进步,我们必须努力实施高效、可持续和环保的脱盐desalinization方法。只有这样,我们才能确保未来几代人拥有安全的水资源。
