regenerated water

简明释义

再生水

英英释义

例句

1.In many industrial processes, regenerated water 再生水 is used to reduce the consumption of potable water.

在许多工业过程中，使用再生水 regenerated water以减少饮用水的消耗。

2.Farmers are increasingly relying on regenerated water 再生水 for irrigation to conserve fresh water resources.

农民们越来越依赖于再生水 regenerated water进行灌溉，以节约淡水资源。

3.The hotel uses regenerated water 再生水 for flushing toilets and landscaping, making their operations more sustainable.

这家酒店使用再生水 regenerated water冲洗厕所和美化环境，使其运营更加可持续。

4.The city has implemented a new system to treat wastewater, allowing for the use of regenerated water 再生水 in public parks.

该城市实施了一项新系统来处理废水，使得在公共公园中使用再生水 regenerated water成为可能。

5.Research shows that using regenerated water 再生水 for cooling systems can significantly lower energy costs.

研究表明，使用再生水 regenerated water用于冷却系统可以显著降低能源成本。

作文

In recent years, the concept of water sustainability has gained significant attention due to the increasing scarcity of fresh water resources. One innovative solution that has emerged is the use of regenerated water, which refers to water that has been treated and recycled for reuse in various applications. This process not only helps in conserving precious water resources but also reduces the environmental impact associated with water extraction and waste disposal. The treatment of regenerated water typically involves several stages, including filtration, biological treatment, and disinfection. These processes ensure that the water meets safety standards before being reused for purposes such as irrigation, industrial processes, and even potable water supply in some cases. The idea behind recycling water is to create a closed-loop system where water is continuously reused instead of being wasted. One of the most compelling benefits of regenerated water is its potential to alleviate the pressure on freshwater sources. In many regions around the world, especially in arid and semi-arid areas, the demand for water far exceeds the available supply. By implementing systems to treat and recycle wastewater, communities can significantly extend their water supply and improve resilience against droughts. For instance, cities like Los Angeles and Singapore have successfully integrated regenerated water into their water management strategies, showcasing how effective this approach can be. Furthermore, the environmental benefits of using regenerated water are substantial. Traditional methods of water extraction, such as drawing from rivers and aquifers, can lead to ecological imbalances and habitat destruction. By relying on treated wastewater instead, we can help protect natural ecosystems while still meeting human water needs. Additionally, using regenerated water for irrigation can reduce the amount of fertilizers and pesticides that leach into groundwater, promoting healthier agricultural practices. Despite these advantages, there are challenges associated with the acceptance and implementation of regenerated water. Public perception plays a crucial role, as many individuals may be hesitant to accept recycled water for drinking or other uses due to concerns about safety and quality. Education and outreach are essential to inform the public about the rigorous treatment processes involved and the safety measures in place to ensure that regenerated water is safe for use. Moreover, regulatory frameworks need to adapt to support the widespread use of regenerated water. Governments must establish clear guidelines and standards for the treatment and use of recycled water, ensuring that it meets health and safety requirements. Investment in infrastructure is also necessary to facilitate the collection, treatment, and distribution of regenerated water. In conclusion, the use of regenerated water presents a promising solution to the global water crisis. By treating and recycling wastewater, we can conserve freshwater resources, protect the environment, and promote sustainable practices. However, overcoming public skepticism and establishing robust regulatory frameworks are essential for the successful implementation of this innovative approach. As we move towards a more sustainable future, embracing the concept of regenerated water could play a vital role in ensuring that we have enough clean water for generations to come.

近年来，由于淡水资源日益稀缺，水资源可持续性这一概念受到了广泛关注。出现了一种创新的解决方案，即使用再生水，指的是经过处理和回收以便在各种应用中重复使用的水。这一过程不仅有助于节约珍贵的水资源，还减少了与水提取和废物处理相关的环境影响。再生水的处理通常包括几个阶段，包括过滤、生物处理和消毒。这些过程确保水在被重新使用之前符合安全标准，适用于灌溉、工业过程，甚至在某些情况下作为饮用水供应。回收水的想法是创造一个闭环系统，使水能够不断重复使用，而不是被浪费。再生水最引人注目的好处之一是它缓解淡水源压力的潜力。世界许多地区，尤其是干旱和半干旱地区，对水的需求远远超过可用供应。通过实施处理和回收废水的系统，社区可以显著延长水供应，提高抗旱能力。例如，洛杉矶和新加坡等城市成功地将再生水融入其水管理策略，展示了这种方法的有效性。此外，使用再生水的环境效益也非常显著。传统的水提取方法，如从河流和地下水层抽水，可能导致生态失衡和栖息地破坏。通过依赖处理过的废水，我们可以帮助保护自然生态系统，同时满足人类的水需求。此外，使用再生水进行灌溉可以减少渗入地下水的肥料和杀虫剂，从而促进更健康的农业实践。尽管有这些优势，但接受和实施再生水仍面临挑战。公众的看法起着至关重要的作用，因为许多人可能会因为对安全和质量的担忧而对饮用或其他用途的回收水持谨慎态度。教育和宣传对于告知公众有关严格的处理过程及确保再生水安全使用的措施至关重要。此外，监管框架需要适应，以支持再生水的广泛使用。政府必须建立明确的指导方针和标准，以确保回收水的处理和使用符合健康和安全要求。同时，还需要对基础设施进行投资，以促进再生水的收集、处理和分配。总之，使用再生水为全球水危机提供了一个有前景的解决方案。通过处理和回收废水，我们可以节约淡水资源，保护环境，促进可持续实践。然而，克服公众怀疑和建立强有力的监管框架对于这一创新方法的成功实施至关重要。随着我们向更可持续的未来迈进，拥抱再生水的概念可能在确保我们为未来几代人提供足够清洁水方面发挥至关重要的作用。