Primary full-length articles related to all areas of environmental engineering, agricultural pollution and hydraulical studies are welcome. The deadline for proposals is April 10, 2021 by which all interested participants are required to submit a provisional title, full paper (4000-6000 words) and an indication of your willingness to participate. We highly encourage doctorate (PhD) and postgraduate students to present their research proposal or findings or issues in this conference with a very special registration fees.

We look forward to seeing you in Wuhan, which has provided valuable experience for global epidemic prevention and international cooperation, and has made remarkable achievements in the prevention and control of COVID-19.

The global pandemic of Corona Virus Disease 2019 (COVID-19) has become a new infectious disease which spreads most widely, causes the most diseases and deaths to human beings, and causes the most serious social and economic losses in human history. The long road of epidemic prevention tests the soul and wisdom of human beings and calls for people to have a deeper understanding of environmental problems. 

Environment problems are growing seriously with the development of human society, especially for water pollution.  Hydraulical reserch is the key issue in water resource use and protection, which also plays an important role in the construction of water conservancy, environmental engineering and agriculture production. Develop and enforce environmental management for hydraulic engineering construction has important significance in effective prevention of agricultural pollution and ecological damage caused by environmental engineering.

The overall objective of EEAPHS 2021 is to provide a platform to analyze the interrelation between environmental engineering, agricultural pollution and hydraulical studies. It is expected to open the way to elimination of environmental pollution and ecological crisis as well as to protection of green environment for human existence.

Abstract: In recent years, microalgae have been discussed as important biological resources for a wide range of biotechnological applications. Many microalgal species, such as Spirulina and Chlorella, are currently produced for health and food due to their high nutritional value. Microalgal cells contain a variety of high value products such as phycobilins, carotenoids, polyunsaturated fatty acids (PUFA), and bioactive compounds that are useful as nutraceuticals and pharmaceuticals. From environmental aspect, microalgae have high efficiency for bioremediation and can be used for wastewater treatment while producing the biomass. In addition, many microalgal species are used as a biological tool for environmental toxicants monitoring such as pesticides and heavy metals. Therefore, microalgae cultivated in wastewater have attracted much interest in the last decades for dual purpose of phycoremediation and biofuel production. Microalgae biorefinery is nowadays a widely used statement for efficient utilization of microalgae, which is getting much attention. Therefore, recent advances in microalgae cultivation to achieve a circular economy is a timely topic that deserves in depth discussion. This speech aims to addresses the historical and potential use of microalgae for enhancing the human health and preventing diseases. In addition, integrated approaches for microalgae cultivation, waste recycling, and biofuel production will be evaluated in order to introduce all the latest novel technologies for a circular bioeconomy.