deep tanks
简明释义
深舱
英英释义
Deep tanks are large containers designed to hold liquids or other substances, characterized by their considerable depth relative to their width and length. | 深水箱是设计用来容纳液体或其他物质的大型容器,其特点是相对于宽度和长度具有相当大的深度。 |
例句
1.In our aquarium, the deep tanks 深水槽 allow visitors to see marine life up close.
在我们的水族馆中,
2.Our company uses deep tanks 深水槽 for aquaculture to ensure optimal growth conditions for fish.
我们公司使用
3.The marine biologist studied the ecosystems within the deep tanks 深水槽 to understand how different species interact.
海洋生物学家研究了
4.The engineers designed deep tanks 深水槽 to hold large volumes of water for testing hydraulic systems.
工程师设计了
5.The research facility has several deep tanks 深水槽 that simulate ocean conditions for experiments.
研究机构有几个
作文
In recent years, the concept of sustainability has gained immense popularity across various industries. One area where this is particularly evident is in aquaculture, where the use of deep tanks (深水箱) has transformed traditional fish farming practices. These deep tanks provide a controlled environment that allows for optimal growth conditions for aquatic species. By utilizing advanced technology and innovative designs, farmers can create habitats that mimic natural ecosystems, leading to healthier fish and higher yields.The benefits of using deep tanks are numerous. Firstly, they enable better water quality management. In shallow ponds, water quality can deteriorate quickly due to waste accumulation and algae growth. However, deep tanks allow for greater water volume, which dilutes pollutants and maintains a more stable environment. This results in reduced stress for the fish, promoting faster growth and improving overall health.Secondly, deep tanks provide enhanced biosecurity. In traditional open-water farming, fish are exposed to various pathogens and predators. The enclosed nature of deep tanks minimizes these risks, allowing farmers to implement strict biosecurity measures. This is crucial for preventing disease outbreaks, which can devastate entire fish populations and lead to significant economic losses.Moreover, deep tanks facilitate efficient feeding practices. With controlled feeding systems, farmers can monitor and adjust feed distribution according to the specific needs of the fish. This precision not only reduces feed waste but also ensures that fish receive the necessary nutrients for optimal growth. As a result, farmers can achieve higher production rates while minimizing their environmental footprint.The environmental impact of aquaculture is a growing concern, and deep tanks offer a solution to some of these challenges. By reducing the need for antibiotics and chemicals, these systems promote sustainable practices that benefit both the ecosystem and the economy. Additionally, deep tanks can be designed to utilize renewable energy sources, further decreasing their carbon footprint.As the demand for seafood continues to rise, the role of deep tanks in aquaculture will become increasingly important. They represent a shift towards more sustainable practices that prioritize both productivity and environmental responsibility. Farmers who adopt this technology are likely to see not only improved yields but also a positive impact on their local ecosystems.In conclusion, the use of deep tanks (深水箱) in aquaculture is a prime example of how innovation can lead to more sustainable practices. By providing a controlled environment that enhances fish health and reduces environmental impact, deep tanks are paving the way for the future of fish farming. As we continue to explore new technologies and methods, it is essential to embrace solutions that benefit both our economy and our planet. The future of aquaculture lies in the adoption of practices that prioritize sustainability, and deep tanks are at the forefront of this movement.
近年来,可持续发展的概念在各个行业中获得了巨大的关注。在水产养殖领域,这种趋势尤为明显,深水箱(deep tanks)的使用改变了传统的鱼类养殖方式。这些深水箱提供了一个受控环境,可以为水生物种创造最佳的生长条件。通过利用先进的技术和创新的设计,农民可以创造出模仿自然生态系统的栖息地,从而培养出更健康的鱼类并提高产量。使用深水箱的好处不胜枚举。首先,它们能够更好地管理水质。在浅水池中,由于废物积累和藻类生长,水质可能迅速恶化。然而,深水箱允许更大的水体,这样可以稀释污染物并保持更稳定的环境。这减少了鱼类的压力,促进了更快的生长并改善了整体健康。其次,深水箱提供了增强的生物安全性。在传统的开放水域养殖中,鱼类暴露于各种病原体和捕食者之下。深水箱的封闭特性最小化了这些风险,使农民能够实施严格的生物安全措施。这对于防止疾病爆发至关重要,因为疾病爆发可能会摧毁整个鱼群并导致重大经济损失。此外,深水箱还促进了高效的喂养实践。通过控制喂养系统,农民可以根据鱼类的具体需求监测和调整饲料分配。这种精确性不仅减少了饲料浪费,还确保鱼类获得必要的营养以实现最佳生长。因此,农民可以在最小化环境足迹的同时实现更高的生产率。水产养殖的环境影响日益受到关注,而深水箱为解决一些挑战提供了方案。通过减少对抗生素和化学品的需求,这些系统促进了有利于生态系统和经济的可持续实践。此外,深水箱可以设计成利用可再生能源,进一步降低其碳足迹。随着对海鲜需求的持续增长,深水箱在水产养殖中的作用将变得越来越重要。它们代表了一种向更可持续实践转变的趋势,优先考虑生产力和环境责任。采用这项技术的农民不仅可能看到产量的提高,而且对当地生态系统产生积极影响。总之,在水产养殖中使用深水箱(deep tanks)是创新如何引领更可持续实践的一个典范。通过提供一个受控环境,增强鱼类健康并减少环境影响,深水箱为未来的鱼类养殖铺平了道路。随着我们继续探索新技术和方法,拥抱既有利于经济又有利于地球的解决方案至关重要。水产养殖的未来在于采用优先考虑可持续性的实践,而深水箱正处于这一运动的前沿。
相关单词
