Absorption basin
发音:英 [ˌæbsəˈrəʊʃn ˈbeɪsn]
释义:吸收盆地,吸收区
分别的发音:分别 [ˈbi:nə]
分别的用法:表示“分别”时,它可指某人或某物在空间上的分离,也可指在时间上的先后相继。
分别的记法:可以结合具体的语境,从字形上推测词义,加以记忆。比如“分”和“别”都有分离的含义,“Absorption basin”可以理解为“吸收盆地”,即吸收物质的地方,需要分开来处理。
希望以上信息有帮助。
absorption basin是一个物理现象,通常指吸收池。吸收池是一种用于测量物质吸收辐射的装置,通常用于光谱学和辐射度学的研究。它由一个或多个吸收器组成,用于吸收来自光源的辐射,并将其转化为可测量的信号。吸收池通常用于测量物质对不同波长和能量的辐射的吸收率、散射系数和透明度等参数。
此外,吸收池还可以用于其他物理现象的研究,例如热传导、热对流和热辐射等。在这些情况下,吸收池可以用来测量物质的热传导系数、热扩散系数和热辐射系数等参数,以帮助研究人员更好地理解这些物理现象的性质和规律。
Absorption Basin Management: An Integrated Approach
Absorption basins play a crucial role in water resource management, particularly in areas with high water scarcity. They serve as reservoirs for surface and groundwater, providing a safe and sustainable source of water for human and environmental needs. However, effective absorption basin management requires a comprehensive approach that considers various factors, including water scarcity, water quality, and climate change.
Water scarcity is a pervasive challenge in many regions, and absorption basins provide a critical source of water for human and environmental needs. However, the limited supply of water necessitates efficient management to ensure sustainable use. One of the key challenges in absorption basin management is ensuring that water is allocated fairly among competing demands, such as agriculture, industry, and domestic use. To address this challenge, it is essential to develop a comprehensive water use plan that considers local conditions and allocates water resources based on the most urgent needs.
Water quality is another crucial aspect of absorption basin management. The presence of pollutants in water can have negative impacts on human health and the environment. Therefore, it is essential to monitor water quality regularly and take appropriate action to ensure that water is safe for consumption and other uses. To achieve this, it is necessary to implement effective water treatment and disposal systems that can remove pollutants from water before it enters the basin.
Climate change has also had a significant impact on absorption basin management. Changes in precipitation patterns and rising temperatures can have negative impacts on water resources, leading to increased water scarcity and changes in water quality. Therefore, it is essential to develop adaptation strategies that can respond to these changes and ensure sustainable water resources management. These strategies may include enhancing drought resilience through improved water storage and distribution systems, as well as enhancing water conservation measures such as rainwater harvesting and gray water recycling.
In conclusion, absorption basin management is essential for ensuring sustainable water resources in regions with high water scarcity. To achieve effective management, it is necessary to consider various factors, including water scarcity, water quality, and climate change. By developing a comprehensive water use plan that allocates resources fairly among competing demands, implementing effective water treatment and disposal systems, and developing adaptation strategies to respond to climate change, absorption basin managers can ensure sustainable and secure water resources for the future.