NANOTECHNOLOGY IN THE FUNCTION OF SUSTAINABLE WATER USE

S. Stevović, Ž. Nestorović, N. Đurić
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Abstract

Nanotechnology, as contemporary field of research in forming of materials and devices on the level of molecule and atoms, is founding broad utilization in different scientific and engineering domains. The influence of nanotechnology on the development of contemporary human society has got a significant potential in domains as economy, environment protection, health and improvement of the quality of life. The need for fresh water as a necessary resource for living world, as well as the economic activity on the level of humanity is growing in the conditions of increasing population, increasing economic activities and increasing pollution. In that sense the conventional methods for water treatment may become ineffective for providing sustainable utilization of water resources in the future. Nanotechnology as a contemporary scientific and engineering field is considered efficient and potentially, the only solution for sustainable utilization of fresh water in the future. The efforts in nanotechnology utilization for sustainability of fresh water resources mean comprehensive approach and clarity in defining goals as well as the ways for their realization. The basic expectations of nanotechnology in the sense of fresh water resources utilization are directed to enhancement of fresh water availability, increase of efficiency of fresh water delivery and enabling next generation systems for fresh water quality monitoring. The increase of fresh water availability by nanotechnology means development of filtering systems and development of membrane systems, inverse osmosis for water desalinization and catalysts for water treatment. Efficiency of fresh water delivery based on nanotechnology means reducing energy necessary for its transportation, developing system of pipes and components which are easier, stronger and which will last longer as well as to provide cheap materials which improve energy efficiency for heating and cooling. All these processes for nanotechnology development aiming to provide sustainable fresh water resources utilization require significant efforts on scientific and engineering level in order to be utilized in everyday life. This paper aims to research the state of the art of nanotechnology development in the domain of sustainable utilization of fresh water resources.
纳米技术在可持续用水中的作用
纳米技术作为在分子和原子水平上形成材料和器件的当代研究领域,在不同的科学和工程领域得到了广泛的应用。纳米技术对当代人类社会发展的影响在经济、环境保护、健康和提高生活质量等领域具有巨大的潜力。在人口增加、经济活动增加和污染增加的情况下,对淡水作为生活世界和人类经济活动的必要资源的需求正在增加。从这个意义上说,传统的水处理方法可能在将来无法提供水资源的可持续利用。纳米技术作为当代科学和工程领域,被认为是未来可持续利用淡水的唯一解决方案。在利用纳米技术促进淡水资源的可持续性方面所作的努力意味着在确定目标及其实现途径方面采取全面的方法和明确的态度。纳米技术在淡水资源利用方面的基本期望是加强淡水供应,提高淡水输送的效率,并使下一代淡水质量监测系统成为可能。通过纳米技术增加淡水的可用性意味着过滤系统和膜系统的发展,水脱盐的反渗透和水处理的催化剂的发展。基于纳米技术的淡水输送效率意味着减少运输所需的能源,开发更容易、更坚固、更持久的管道和组件系统,以及提供提高加热和冷却能源效率的廉价材料。所有这些旨在提供淡水资源可持续利用的纳米技术发展过程都需要在科学和工程水平上作出重大努力,才能在日常生活中得到利用。本文旨在研究纳米技术在淡水资源可持续利用领域的发展现状。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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