Solid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials based on sensor and image technology
With the development of science and technology, the power source of the automobile industry has gradually changed from non-renewable energy sources such as petroleum to electric energy, a clean and renewable energy source. By the end of 2020, scientists have found that the global demand for batterie...
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2022
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oai:doaj.org-article:de2067c068c44e9c874c32b467b934392021-11-30T04:13:58ZSolid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials based on sensor and image technology1110-016810.1016/j.aej.2021.08.010https://doaj.org/article/de2067c068c44e9c874c32b467b934392022-03-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S1110016821005287https://doaj.org/toc/1110-0168With the development of science and technology, the power source of the automobile industry has gradually changed from non-renewable energy sources such as petroleum to electric energy, a clean and renewable energy source. By the end of 2020, scientists have found that the global demand for batteries has greatly increased. The demand for power batteries has reached 50% of all battery demand, occupying half of the market. In addition, scientists also boldly predict that by 2025, China's consumption of batteries in the automobile industry will reach more than 100,000 tons per year. Faced with so much battery consumption, how to dispose of and recycle LiFePO4 used batteries has become the key to restricting the development of the industry. Failure to dispose of used batteries will not only hinder the development of the industry, but also cause serious pollution to the environment. The application of sensors today has been extended to various fields, and the emergence of satellite navigation and positioning technology is one of the driving forces to promote its development. However, the sensor cannot be directly applied to various environments. When in a complex environment, the obstruction of various objects in the environment will seriously affect the stability of the sensor. In order to ensure the normal operation of the sensor, positioning technology began to be applied to the sensor. The industrial production process of solid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials discussed in this article is based on this perspective, through the use of computer vision positioning to reduce the impact of environmental factors on the accuracy of the sensor, thereby improving the quality of the battery. In order to match the image point of the waste lithium iron phosphate material with the space point, this paper creatively uses the image point and the point in the corresponding space field. In addition, the author also studied the camera's rear rendezvous method and proposed a new rear rendezvous method. In addition, in order to strengthen the detection of waste lithium iron phosphate materials, this paper strengthened the construction of the sensor hardware system and software system, and completed the upgrade of the waste lithium iron phosphate material detection system.Ruipeng ZhangJiang ChaiQi ShangRenbang ZhaoYing LiangElsevierarticleSensorImage technologyWaste materialsSolid phase regenerationEngineering (General). Civil engineering (General)TA1-2040ENAlexandria Engineering Journal, Vol 61, Iss 3, Pp 1912-1921 (2022) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
Sensor Image technology Waste materials Solid phase regeneration Engineering (General). Civil engineering (General) TA1-2040 |
| spellingShingle |
Sensor Image technology Waste materials Solid phase regeneration Engineering (General). Civil engineering (General) TA1-2040 Ruipeng Zhang Jiang Chai Qi Shang Renbang Zhao Ying Liang Solid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials based on sensor and image technology |
| description |
With the development of science and technology, the power source of the automobile industry has gradually changed from non-renewable energy sources such as petroleum to electric energy, a clean and renewable energy source. By the end of 2020, scientists have found that the global demand for batteries has greatly increased. The demand for power batteries has reached 50% of all battery demand, occupying half of the market. In addition, scientists also boldly predict that by 2025, China's consumption of batteries in the automobile industry will reach more than 100,000 tons per year. Faced with so much battery consumption, how to dispose of and recycle LiFePO4 used batteries has become the key to restricting the development of the industry. Failure to dispose of used batteries will not only hinder the development of the industry, but also cause serious pollution to the environment. The application of sensors today has been extended to various fields, and the emergence of satellite navigation and positioning technology is one of the driving forces to promote its development. However, the sensor cannot be directly applied to various environments. When in a complex environment, the obstruction of various objects in the environment will seriously affect the stability of the sensor. In order to ensure the normal operation of the sensor, positioning technology began to be applied to the sensor. The industrial production process of solid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials discussed in this article is based on this perspective, through the use of computer vision positioning to reduce the impact of environmental factors on the accuracy of the sensor, thereby improving the quality of the battery. In order to match the image point of the waste lithium iron phosphate material with the space point, this paper creatively uses the image point and the point in the corresponding space field. In addition, the author also studied the camera's rear rendezvous method and proposed a new rear rendezvous method. In addition, in order to strengthen the detection of waste lithium iron phosphate materials, this paper strengthened the construction of the sensor hardware system and software system, and completed the upgrade of the waste lithium iron phosphate material detection system. |
| format |
article |
| author |
Ruipeng Zhang Jiang Chai Qi Shang Renbang Zhao Ying Liang |
| author_facet |
Ruipeng Zhang Jiang Chai Qi Shang Renbang Zhao Ying Liang |
| author_sort |
Ruipeng Zhang |
| title |
Solid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials based on sensor and image technology |
| title_short |
Solid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials based on sensor and image technology |
| title_full |
Solid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials based on sensor and image technology |
| title_fullStr |
Solid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials based on sensor and image technology |
| title_full_unstemmed |
Solid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials based on sensor and image technology |
| title_sort |
solid-phase regeneration and electrochemical performance of waste lithium iron phosphate materials based on sensor and image technology |
| publisher |
Elsevier |
| publishDate |
2022 |
| url |
https://doaj.org/article/de2067c068c44e9c874c32b467b93439 |
| work_keys_str_mv |
AT ruipengzhang solidphaseregenerationandelectrochemicalperformanceofwastelithiumironphosphatematerialsbasedonsensorandimagetechnology AT jiangchai solidphaseregenerationandelectrochemicalperformanceofwastelithiumironphosphatematerialsbasedonsensorandimagetechnology AT qishang solidphaseregenerationandelectrochemicalperformanceofwastelithiumironphosphatematerialsbasedonsensorandimagetechnology AT renbangzhao solidphaseregenerationandelectrochemicalperformanceofwastelithiumironphosphatematerialsbasedonsensorandimagetechnology AT yingliang solidphaseregenerationandelectrochemicalperformanceofwastelithiumironphosphatematerialsbasedonsensorandimagetechnology |
| _version_ |
1718406835129548800 |