Summary
The optimal decision-making case for the engineering design and operation of the smart city water environment project is the project design and consulting service project based on the professional optimization software of OptimizerTM. According to the sponge city design principle, the design and operation of the urban water management system are improved with optimization technology, and finally formed based on The simulation and optimization of the urban water management system based on the sponge city principle provides optimal decision support for the engineering design and operation of various smart city water environment projects. Reduce flooding, avoid merging sewer overflows and keep the influent water quality of the wastewater treatment plant stable.
Application
The optimizerTM software has been implemented in many projects in the United States, Germany, Australia, France and other places to reduce the capital and operating costs of large-scale water environment infrastructure projects. Its application of optimization technology to improve the design of water management systems can usually save 20-30 % Of capital and operating costs have played a positive role in promoting the development of green and smart cities.
Evaluation
Jeff Haby, Production Manager/Interim Director of San Antonio, Texas Water Supply System, commented: “Optimatics hopes to replace 60% of the existing supply system and use a more powerful source of supply. Under the best conditions, the supply can be completed in one day. Mission. Optimatics employees use their powerful tools to provide customers with low-cost (capital and operating costs) and highly innovative solutions that people who rely on traditional technologies have never considered these solutions."
Laura Jacobsen, planning manager and professional engineer for the Las Vegas Valley Water District, Nevada, commented: "The most interesting aspect of the study so far is the range of solutions generated by optimizing the technology. This allows the entire region to review some potential facility combinations. Plans, and these plans have not previously appeared in the overall planning process of the region."
Case Introduction
OptimizerTM can use existing models as well as develop new models to explore new needs withcustomers. Simulation models can help predict future changes in the water management system. At different stages of the project cycle, the model will also change. In the global project cooperation between Optimatics and Zhiyou Technology, we will cooperate with customers in the following stages in the future: (1) In the planning (concept and feasibility study) stage; (2) In the final design stage, improve the design scheme obtained by traditional methods; (3) In the operation phase, improve the operating rules; (4) In the strategy phase, maintain and repair the aging system.
In the global smart city water environment project engineering design and operation optimization decision-making technology case, we focused on the application of hydraulic model construction and multi-objective problem solving, and answered how to plan for the future growth and changing water supply network to maximize To reduce costs and improve service levels in a timely manner; how to provide a solution layout in the overall planning of the water network, showing the location of recommended supply, storage and transmission facilities; how to ensure that the replacement project is carried out efficiently when the water supply and drainage network facilities are maintained and updated; In the case of water pressure management in the Thames, how to control the network to minimize leakage, improve water quality and system recovery; minimize the nitrate content of source water and improve system recovery capabilities; the above cases have achieved good economic benefits for the owner, which is extremely Greatly cut costs.
