Уважаемые коллеги, доброго времени суток! Представляем вам немецкое научное издание Drinking Water Engineering and Science. Журнал имеет третий квартиль, издаётся в Copernicus Publications, находится в открытом доступе, его SJR за 2021 г. равен 0,342, печатный ISSN - 1996-9457, электронный - 1996-9465, предметные области - Загрязнение, Наука о воде и связанных технологиях, Строительно-монтажное проектирование. Вот так выглядит обложка:
Здесь два редактора - Луук Риетвелд, контактные данные - l.c.rietveld@tudelft.nl
и Ян Петер ван дер Хоек - j.p.vanderhoek@tudelft.nl.
Это рецензируемый журнал открытого доступа для публикации оригинальных исследований в области очистки и снабжения питьевой водой. Основное внимание уделяется прикладным исследованиям в области источников воды, веществ, процессов очистки питьевой воды, систем распределения и утилизации отходов. Инженерия и наука в области питьевой воды обслуживает ученых из университетов и научно-исследовательских институтов, а также инженеров и исследователей из компаний, занимающихся водоснабжением, или инженерно-консалтинговых фирм.
Адрес издания - https://www.drinking-water-engineering-and-science.net/
Пример статьи, название - Sustainability characteristics of drinking water supply in the Netherlands. Заголовок (Abstract) - Developments such as climate change and a growing demand for drinking water threaten the sustainability of drinking water supply worldwide. To deal with this threat, adaptation of drinking water supply systems is imperative, not only on a global and national scale but particularly on a local scale. This investigation sought to establish characteristics that describe the sustainability of local drinking water supply. The hypothesis of this research was that sustainability characteristics depend on the context that is analysed, and therefore, a variety of cases must be analysed to reach a better understanding of the sustainability of drinking water supply in the Netherlands. Therefore, three divergent cases on drinking water supply in the Netherlands were analysed. One case related to a short-term development (2018 summer drought), and two concerned long-term phenomena (changes in water quality and growth in drinking water demand). We used an integrated systems approach, describing the local drinking water supply system in terms of hydrological, technical, and socio-economic characteristics that determine the sustainability of a local drinking water supply system. To gain a perspective on the case study findings that are broader than the Dutch context, the sustainability aspects identified were paired with global aspects concerning sustainable drinking water supply. This resulted in the following set of hydrological, technical, and socio-economic sustainability characteristics: (1) water quality, water resource availability, and impact of drinking water abstraction; (2) reliability and resilience of the technical system and energy use and environmental impact; (3) drinking water availability, water governance, and land and water use. Elaboration of these sustainability characteristics and criteria into a sustainability assessment can provide information on the challenges and trade-offs inherent in the sustainable development and management of a local drinking water supply system.