As the national level promotes the treatment of black and odorous water bodies and the construction of sponge cities, huge market demands have been released, and the water environment management of river basins has intersected or coordinated with each other, and has become an important means for improving the water environment quality in various places.
In the operation phase, the core content is the technicalization of operations. Traditional water environment management operations are mostly water surface cleaning, green irrigation, grass cutting, and road surface cleaning, which lack technical content. In fact, BE Water has used many water environment models in the design process, and dynamically adjusted with the construction process. When adjusted to the operation stage, the water environment model will be used as the operation model of the operation stage, so the operation and management will be highly technical. For example, in a water environment unit with a pipe network, a sewage plant, and a river as the core, the operating standard of the sewage plant can be adjusted according to the water quality of the receiving water body, which can greatly reduce the operating cost of the sewage plant.
Plant liquid deodorant is a deodorant produced by using plant extraction technology, extracting active ingredients from a variety of plants as the main raw material, and formulating the principle of adsorption and decomposition of various odor molecules. This kind of malodorous environment odor treatment, such as landfill, waste transfer station, waste composting plant, waste incineration plant, sewage treatment center, manure treatment center, pig farm, chicken waste water treatment and fishery processing center.
The whole life cycle runs through the planning and design to the end of operation management. At the front end of governance, there must be a top-level design when planning and designing. To this end, during the planning and design phase, BE Water established a top-level design team, including urban planning, river basin governance, hydrology, water quality model, project management, and operation management. The top-level design must set all the important parameters of the plan, set them and implement the parameters and indicators into the design unit, so as to become a module, and then specific to the design institute to achieve.
There must be a dynamic adjustment mechanism in the construction process. Because there are many changes in the construction. Therefore, the top-level design team will dynamically adjust the parameters at any time following the construction process and look for compensatory engineering to solve the problem. In addition, in the construction process, the choice of materials and equipment will be very different from the traditional construction mode. Materials are no longer the cheaper the better, but are determined based on durability and reliability over the life of the operation.
Basin-wide governance and life-cycle management. The whole river basin involves multiple areas of water sources, rural areas, and cities, and it is unlikely that all of them will be solved systematically in engineering. But companies can develop protective plans at the source. Management of rural non-point source pollution can be planned and adjusted in terms of farming, irrigation mode, planting structure, etc., so as to reduce some pollutants.