Joint Modeling and Operational Optimization of a Reverse Osmosis-Mechanical Vapor Recompression System for Coal-Fired Power Plant Wastewater.

The operation of coal-fired power plants generates a large amount of wastewater. With the issuance of increasingly strict drainage standards, the cost of wastewater treatment is increasing, and the need to reduce the cost of wastewater treatment is becoming increasingly urgent. Thus, based on the principles of reverse osmosis (RO) and mechanical vapor recompression (MVR) in wastewater treatment, the operational optimization of an RO-MVR joint system was studied in this work with the consideration of reducing the operating costs of wastewater treatment under given operational conditions.

Simulation and Operational Optimization of RO Based Desalination for Coal-Fired Power Plants' Wastewater.

Focusing on the problems of opaqueness and high energy consumption in coal-fired power plant wastewater recycling processes, this paper studies the simulation and operational optimization of coal-fired power plant wastewater treatment by taking a coal-fired power plant system in Inner Mongolia as an example. Firstly, based on the solution-diffusion theory, pressure drop, and osmotic concentration polarization, a mechanistic model equation for coal-fired power plant wastewater treatment is developed. Secondly, the equation fitness and equation parameters are calibrated to obtain an accurate model.

[Different pruning to yield and quality of Lonicerea Japonicae Flos].

Objective: To find out the influence of differences pruning on Lonicerea Japonicae Flos on it's yield and quality, and provide reference for reasonable pruning.

Method: Using different pruning treatments, the growth and yield and chlorogenic acid and galuteolin contents of Lonicerea Japonicae Flos were measured and compared. And the source and sink theory were used to interpret the rationality of the best way.