cover
Contact Name
Arwizet Karudin
Contact Email
arwizet@ft.unp.ac.id
Phone
+6281374579570
Journal Mail Official
ijimce@ppj.unp.ac.id
Editorial Address
Jalan Prof. Dr. Hamka, Air Tawar Padang, Sumatera Barat
Location
Kota padang,
Sumatera barat
INDONESIA
IJIMCE : International Journal of Innovation in Mechanical Construction and Energy
ISSN : 30469112     EISSN : 30469104     DOI : https://doi.org/10.24036/ijimce
The journal scopes include (but not limited to) the followings: Innovations in Mechanical Energy Systems : Advanced technologies in energy conversion and power generation, Renewable energy sources and their integration into mechanical systems, Energy-efficient design and optimization in mechanical systems. Materials and Manufacturing Innovations : Novel materials for enhanced mechanical performance, Advanced manufacturing techniques and processes, Sandwich structures in energy absorbing applications, Additive manufacturing modalities (laser powder bed fusion, electron powder bed fusion, DED, material jetting, FDM) in energy absorbing applications, Sustainable and eco-friendly materials in mechanical engineering. Machine Construction and Design : Innovative designs and developments in mechanical components, Structural analysis and optimization of machine elements, Automation and control systems for efficient machine operation, Topology optimization and homogenization methods in aircraft structures to decrease energy usage. Thermal Systems and Heat Transfer : Innovative designs and developments in mechanical components, Structural analysis and optimization of machine elements, Automation and control systems for efficient machine operation, Additive heat exchanger applications. Renewable Energy Technologies in Mechanical Systems :Integration of solar and wind energy in mechanical applications, Development of efficient mechanical systems for harnessing renewable energy, Energy storage solutions for intermittent renewable sources. Material Strength and Durability : Research on material properties and their impact on mechanical strength, Durability analysis and improvement in mechanical components, Fracture mechanics and fatigue studies in mechanical materials. Construction and Maintenance of Mechanical Systems : Techniques and methodologies in machine construction, Maintenance strategies for prolonging the life of mechanical systems, Reliability engineering in mechanical system design. Smart Technologies in Mechanical Engineering : TIntegration of smart sensors and IoT in mechanical systems, Machine learning applications for predictive maintenance, Automation and robotics in mechanical engineering.
Articles 41 Documents
Design and Implementation of an HMI-Based Monitoring System for Automatic Water Purification Erawadi, Dedi; Tri Artono; Muhammad Afif Syahreza; Aggrivina Dwiharzandis; Dytchia Septi Kesuma
IJIMCE : International Journal of Innovation in Mechanical Construction and Energy Vol. 2 No. 3 (2025): IJIMCE : International Journal of Innovation in Mechanical Construction and Ene
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/ijimce.v2i3.89

Abstract

Water is one of the basic things in human life, even every living thing needs water to survive. But in reality, there are many villages in Indonesia that experience environmental problems, one of which is water pollution. Lack of clean water is a problem in this research. This research aims to find out the design and development of an automatic water purification system based on PLC and HMI, find out how to increase the efficiency of the water purification process through automation, and provide a user interface for monitoring and control of the system. This research method uses the discussion method, literature method, and observation method. Program testing on PLC and HMI-based water purification equipment is using the CX Programmer program and visualization on the CX designer. By using CX Programmer and CX Designer assisted by other PLC and HMI tools or systems, the water purification system can be controlled and monitored automatically. The water purification system can improve the efficiency of the water purification process through the development of CX Programmer and CX Designer programs such as program performance monitoring, process control, data review, analysis and inspection of the system. Integrating CX Programmer and CX Designer through the same observation of each CX Designer object with the instructions in the CX Programmer program created and can involve between CX Designer software installed on a laptop for PL.