Structural planning and implementation of a microprocessor-based human–machine interface in a steam-explosion process application

Chang, Ruey-Fong; Chang, Chen-Wei; Tseng, Kuo-Hsiung; Chiang, Chui-Liang; Kao, Wen-Shiow; Chen, Wen-Jang

doi:10.1016/j.csi.2010.05.001

Cited by 5 publications

(2 citation statements)

References 10 publications

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“…In this study, to improve the efficiency and reproducibility of the coating process, a computer-based HVOF is then designed. The ATMega16 microcontroller is applied for the system, and to facilitate the operator graphical user interface (GUI) [8][9] was utilized. In the first generation of HVOF systems (Fig.…”

Section: Introductionmentioning

confidence: 99%

Design System of High-Velocity Oxygen Fuel (HVOF) Thermal Spray Coating Based on Computerization

Susanti

Martides

Mirdanies

et al. 2017

KEM

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Wear and corrosion are problems prevalent in the industrialized world. One way to overcome this matter is the process of coating with a thermal spray coating. The coating process is categorized into two processes based on the heat source, i.e., combustion and electric. One example of combustion process is the high-velocity oxygen fuel (HVOF). The HVOF system which is operated manually has been studied in previous works. Computerized HVOF system is developed and manufactured in this study to improve reproducibility of coating and safety of operator. ATMega16 microcontroller was connected with several sensors (oxygen mass flow controller, nitrogen mass flow controller, propane mass flow controller, and pressure sensor), and Visual Studio.Net 2013 was used to create a graphic user interface (GUI). Based on test results obtained, it was found that the GUI successfully communicated using serial communications and could access the input/output (I/O) required by the microcontroller. Combinaton of gas mass flow controller and pressure sensors result in precise control of oxy-fuel combustion process.

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Section: Introductionmentioning

confidence: 99%

Design System of High-Velocity Oxygen Fuel (HVOF) Thermal Spray Coating Based on Computerization

Susanti

Martides

Mirdanies

et al. 2017

KEM

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“…The use of wireless internet allows availability of real-time information, new maintenance tools for equipment and improvements in security through remote access(MARTIN, 2009) [31]. The next application is found inChang et al (2011) [32] that implement a human-machine interface based on a small scale microprocessor and programmable logic, used in a biomass process, providing excellent supervision capacity. [21] also provides examples of applications of intelligent manufacturing in processes and supply chains.…”

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confidence: 99%

Difficulties and Critical Success Factors for Implementing Industry 4.0 Technologies in the Continuous Process Chemical Industry

Santos

Zattar

Seleme

2021

int.jour.sci.res.mana.

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Industry 4.0 technologies may provide great improvements in the productive environment of continuous chemical industries. For example, the availability of real-time data management improves unit operations integration in process intensification. This improvements provide increased profitability, safety, sustainability and fault prediction capability. However, the sector presents specific obstacles in deploying 4.0 technologies because of its intrinsic complexity. This paper objective is to identify the sector-specific difficulties and Critical Success Factors when implementing Industry 4.0 technologies. A comprehensive systematic literature review with content analysis was carried out . Among the emerging necessities identified, the need to simplify complex systems and intensify operations is highlighted. The literature also converges on the urgency for developing reliable systems for adverse event management and assessment models for health, safety and environmental management. This paper is therefore both a tool for managers who seek information when implementing 4.0 technologies and researchers who may be looking for new topics in this area. Future research opportunities in the area are also presented.

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A study on the enzymatic hydrolysis of steam exploded napiergrass with alkaline treatment using artificial neural networks and regression analysis

Chang

Chen

et al. 2011

Journal of the Taiwan Institute of Chemical Engineers

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Structural planning and implementation of a microprocessor-based human–machine interface in a steam-explosion process application

Cited by 5 publications

References 10 publications

Design System of High-Velocity Oxygen Fuel (HVOF) Thermal Spray Coating Based on Computerization

Design System of High-Velocity Oxygen Fuel (HVOF) Thermal Spray Coating Based on Computerization

Difficulties and Critical Success Factors for Implementing Industry 4.0 Technologies in the Continuous Process Chemical Industry

A study on the enzymatic hydrolysis of steam exploded napiergrass with alkaline treatment using artificial neural networks and regression analysis

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