Case Study
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Case Study
“We are developing environmental technologies that promote the circular economy, based on the perspective of ‘creating and continuing to care for the foundation for life.’ Ansys' multiphysics simulations, which cover a wide range of physical domains, play a very important role in this development. In particular, Ansys' integrated simulation technology accelerates the creation of innovative solutions and enables an efficient development process. We are using this advanced tool to accelerate the construction of sustainable social infrastructures.”
— Takashi Nakayama, R&D General Manager, JFE Engineering Corporation
The idea of a resource-recycling society has recently attracted attention, and waste incineration facilities are expected to play an increasingly important role in maintaining the urban environment. The waste incineration facilities built and operated by JFE Engineering Corporation not only perform their original role of burning trash to make it harmless and reduce its volume, but also use heat recovery to turn steam turbines and generate electricity. They also play an important role as decentralized renewable energy supply facilities.
Computational fluid dynamics (CFD) analysis was used to understand the combustion conditions inside the waste incinerator. As a result, counterflow combustion technology that enables more stable and efficient combustion was developed.
After that, JFE Engineering developed a discrete element method (DEM)-CFD coupled simulation to understand the behavior of waste being unsteadily introduced and transported into the incinerator, with the aim of creating an incinerator with lower combustion fluctuations and less environmental impact.
Two major technical challenges were also present:
The nature and size of trash is not uniform and varies greatly depending on the season and region. For example, the percentage of moisture that affects combustibility varies between 30% and 50%, and the calorific value accordingly varies from 7-10 MJ per kilogram. Another major feature of this fuel is that it has a high chlorine and nitrogen content and contains impurities such as metals. These factors make stable combustion difficult.
Additionally, the supply of waste may not be constant. Generally, it is difficult to continuously supply garbage due to the unevenness of the garbage. In other words, it is difficult to maintain a steady state, which causes combustion to fluctuate.
Finally, the combustion mechanism is complex. Since fluctuations in power generation are caused by fluctuations in combustion, it was necessary to understand the combustion behavior inside the furnace and optimize it by adjusting the oxygen concentration.
By utilizing this simulation, JFE Engineering improved the efficiency of development and shortened the development period by approximately 30%. As a result, this counterflow combustion technology reduced NOx emission concentration by approximately 20% and significantly improved power generation capacity. Furthermore, combustion stability was also improved.
To create an incinerator with even lower combustion fluctuations and environmental impact, JFE Engineering utilized DEM-CFD analysis and simulation analysis for a 100 ton/day furnace. it was necessary to optimize the shape and operating conditions of the grate and dust supply equipment to stabilize the supply of garbage to the grate. It was also important to suppress combustion fluctuations due to unsteady garbage supply and changes in garbage calorific value.
To analyze these, it was necessary for JFE Engineering to understand the behavior of garbage being unsteadily introduced and transported into the furnace. They first conducted powder experiments and obtained powder behavior. They then attempted to determine the parameters by reproducing the experimental results using DEM analysis.
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Waste incinerator model with DEM-CFD coupling simulation result
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