Diploma in Batch Automation and Clean Utilities
Sobre nuestro Diploma in Batch Automation and Clean Utilities
The Diploma in Batch and Clean Utilities Automation focuses on the application of automation and control technologies in batch production systems and clean utility services (purified water, pure steam, gases) in the pharmaceutical and biotechnology industries. Topics covered include PLC, SCADA, HMI, and Manufacturing Information Systems (MES) to optimize efficiency, quality, and regulatory compliance. It includes knowledge of GMP (Good Manufacturing Practices), GAMP (Good Manufacturing Automation Practices), and the validation of automated systems.
The diploma provides practical knowledge in the programming and operation of control systems, the design of cleaning and disinfection systems (CIP/SIP), and the management of production data. The training is geared towards the pharmaceutical, biotechnology, and sterile manufacturing industries, preparing professionals for roles such as automation engineers, control systems technicians, validation analysts, and utility services managers, ensuring compliance with industry regulations and standards. Target keywords (natural in the text): Automation, Batch, Clean Utilities, PLC, SCADA, Validation, GMP, CIP/SIP, Pharmaceutical Industry, Control Systems.
Diploma in Batch Automation and Clean Utilities
- Modalidad: Online
- Duración: 8 meses
- Horas: 900 H
- Idioma: ES / EN
- Créditos: 60 ECTS
- Fecha de matrÃcula: 19-06-2026
- Fecha de inicio: 30-07-2026
- Plazas disponibles: 3
1.390 $
Competencias y resultados
Qué aprenderás
1. Mastery of Batch Automation and Clean Utilities for Naval Optimization
- Automation of Repetitive Tasks: Master the use of scripts and batch commands to automate key processes in naval optimization, saving time and reducing errors.
- Data Cleaning and Optimization: Learn to use specialized utilities to clean, transform, and optimize complex datasets, essential for analysis and decision-making.
- Workflow Optimization: Discover techniques to optimize workflow in naval projects, from data collection to report generation, improving efficiency and productivity.
- Resource and Time Management: Develop skills for effective resource management and task scheduling, ensuring the successful completion of projects within the established timeframe.
- Performance Analysis and Diagnostics: Learn to use tools to analyze the performance of systems and processes, identify bottlenecks, and diagnose problems for continuous optimization.
- Implementation of Custom Solutions: Explore the creation of custom solutions using the Batch and clean utilities, adapting the software to the specific needs of the naval environment.
Integration with Specialized Software: Master the integration of automation and cleaning tools with specialized software used in the naval industry, such as CAD/CAM and simulation software.
Evaluation and Continuous Improvement: Learn to evaluate the effectiveness of implemented solutions and apply continuous improvement techniques to maintain long-term optimization.
2. Expert Implementation of Batch Automation and Clean Utilities in Naval Environments
- Master the configuration and optimization of specific batch automation processes for the management of naval systems and operations.
- Apply specialized clean utilities for the maintenance and hygiene of naval environments, including water, fuel, and air systems.
- Establish and manage automation routines for the monitoring and control of critical equipment on board vessels.
- Design and implement strategies for the automation of predictive and preventive maintenance tasks, reducing downtime and operating costs.
- Analyze and troubleshoot problems related to the integration of automated systems in complex naval environments, ensuring compatibility and efficiency.
- Understand and apply the relevant safety regulations and standards for automation and the use of utilities in the naval sector.
- Develop practical skills in the use of specialized tools and software for automation and resource management in the naval sector.
3. Comprehensive user-oriented design and validation (from modeling to manufacturing)
You will learn to integrate the entire product development process, from initial model conception to final validation, applying user-centered methodologies. You will develop skills in parametric design, ergonomics, simulation, sustainable materials, 3D visualization, and manufacturing management, ensuring efficient, safe solutions that meet current industry standards.
4. Master's Degree in Batch and Clean Utilities Automation for the Naval Industry
4. Master’s Degree in Batch and Clean Utilities Automation for the Naval Industry: What You Will Learn
- Master the fundamentals of batch process automation and clean utilities systems in naval environments.
- Gain in-depth knowledge of the management and optimization of purified water, clean steam, and technical gas systems used in naval construction and maintenance.
- Implement quality control and regulatory compliance strategies specific to the naval industry, including GMP and system validation.
- Design and integrate automation systems using PLCs, SCADA, and advanced control technologies to improve efficiency and safety.
- Analyze and troubleshoot automation and utilities systems, including fault identification, performance optimization, and improvement implementation.
- Develop skills in managing automation and utilities projects, including planning, execution, and control of projects.
Apply process engineering principles to optimize energy efficiency and minimize the environmental impact of naval operations.
Understand and apply relevant regulations and standards for the naval industry, including occupational health and safety regulations.
Use simulation and modeling tools for the design and optimization of automation and utilities systems.
Integrate automation with Industry 4.0, including the use of IoT, data analytics, and machine learning for process optimization.
5. Batch and Clean Utilities Automation: A Course for Naval Excellence
5. Batch Automation and Clean Utilities: A Course for Naval Excellence
- Master the use of batch task automation tools.
- Implement scripts for efficient process management in naval environments.
- Automate system cleaning and maintenance to optimize performance.
- Learn advanced techniques for scheduling and executing scheduled tasks.
- Optimize resource utilization and reduce manual workload in naval operations.
- Configure and manage clean utilities for the secure disposal of data and files.
- Understand the importance of security in the automation of critical processes.
- Integrate automation with naval control and monitoring systems.
- Apply methodologies for troubleshooting and error resolution in automation.
- Develop Skills in creating reports and analyzing automation results.
6. Batch and Clean Utilities Automation: Key Tools for Naval Efficiency [The text abruptly shifts to a seemingly unrelated topic:] [The text abruptly shifts again, so the translation stops as well.]
You will learn to integrate the entire product development process, from initial model conception to final validation, applying user-centered methodologies. You will develop skills in parametric design, ergonomics, simulation, sustainable materials, 3D visualization, and manufacturing management, ensuring efficient, safe solutions that meet current industry standards.
Para quien va dirigido nuestro:
Diploma in Batch Automation and Clean Utilities
Here is the optimized information for the course:
- Aerospace Engineers, Mechanical Engineers, Industrial Engineers, Automation Engineers, or those with similar backgrounds.
- Professionals working in rotary-wing/eVTOL aircraft manufacturers (OEMs), Maintenance, Repair, and Operations (MRO) companies, consulting firms, and technology research centers.
- Experts in flight testing, aeronautical certification, avionics, control systems, and flight dynamics who wish to deepen their knowledge.
- Personnel from Regulatory bodies and authorities, as well as professionals involved in the development of UAM and eVTOL, interested in acquiring skills in compliance.
Recommended requirements: Basic knowledge of aerodynamics, control, and structures is advised. Proficiency in Spanish/English at level B2+/C1. We offer bridging tracks for those who need them.
- Standards-driven curriculum: you will work with CS-27/CS-29, DO-160, DO-178C/DO-254, ARP4754A/ARP4761, ADS-33E-PRF from the first module.
- Accreditable laboratories (EN ISO/IEC 17025) with rotor bench, EMC/Lightning pre-compliance, HIL/SIL, vibrations/acoustics.
- Evidence-oriented TFM: safety case, test plan, compliance dossierand operational limits.
- Mentored by industry: teachers with experience in rotorcraft, tiltrotor, eVTOL/UAM and flight test.
- Flexible modality (hybrid/online), international cohorts and support from SEIUM Career Services.
- Ethics and security: safety-by-design approach, cyber-OT, DIH and compliance as pillars.
1.1 Introduction to Automation in the Naval Industry
1.2 Fundamentals of Batch Processing in Naval Environments
1.3 Introduction to Clean Utilities in the Naval Industry
1.4 Importance of Automation for Naval Efficiency
1.5 Benefits of Automation: Cost and Time Reduction
1.6 Overview of Key Tools and Technologies
1.7 The Role of Automation in Naval Safety
1.8 Relevant Regulations and Standards for Naval Automation
1.9 Case Studies: Success Stories of Naval Automation
1.10 Course Objectives and Learning Expectations
2.2 Introduction to Batch Automation and Clean Utilities in the Naval Context
2.2 Principles of Batch Systems and Their Application in Naval Environments
2.3 Fundamentals of Clean Utilities: Definition and Purpose in the Naval Industry
2.4 Key Automation Components: Relevant Hardware and Software
2.5 Design and Configuration of Batch Systems for Specific Naval Operations
2.6 Implementation of Clean Utilities: Specialized Cleaning Methods and Techniques
2.7 Management and Monitoring of Batch and Clean Utilities Processes
2.8 Safety and Security in Automated Naval Systems
2.9 Naval Industry Regulations and Standards for Batch and Clean Utilities
2.20 Practical Examples and Case Studies: Real-World Applications in the Naval Sector
3.3 Introduction to Automation and Cleanup in Naval Environments
3.2 Importance of Operational Efficiency in the Naval Industry
3.3 Key Concepts of Batch and Clean Utilities
3.4 Essential Components of Naval Systems
3.5 Data Structure and Information Flow in Naval Systems
3.6 Principles of Optimization and Continuous Improvement in Automation
3.7 Overview of Automation and Cleanup Tools
3.8 Case Studies: Initial Applications in the Naval Sector
3.9 Fundamentals of Security and Cybersecurity in Naval Systems
3.30 Introduction to Relevant Legislation and Regulations
4.4 Fundamentals of Naval Automation: Concepts and Terminology
4.2 Introduction to Batch and Clean Utilities: Definitions and Applications
4.3 Importance of Automation in Naval Efficiency
4.4 Data Types and Processes in Naval Environments
4.5 Safety and Regulatory Compliance Considerations
4.6 Naval Automation Systems Architecture
4.7 Essential Tools and Software for Automation
4.8 The Role of the Naval Engineer in Automation
4.9 Current and Future Trends in Naval Automation
4.40 Case Study: Initial Automation Implementation
4.40
5.5 Overview of Automation in the Naval Industry
5.5 Benefits and Challenges of Naval Automation
5.3 Key Technologies in Automation: Sensors, Actuators, SCADA Systems
5.4 The Role of Automation in Improving Efficiency and Safety
5.5 Historical Evolution of Automation in the Navy
5.6 Current and Future Trends in Naval Automation
5.7 Introduction to Control and Monitoring Systems
5.8 Basic Programming and Scripting Concepts for Automation
5.5 Introduction to Batch Processes and Their Application in Naval Environments
5.5 Understanding Clean Utilities: Definition and Purpose
5.3 Types of Batch Processes: Batch Processing, Scheduled Tasks, Data Management
5.4 Clean Utilities Fundamentals: Potable Water, Ballast Water, Cleaning Systems 5.5 Architecture and components of Batch and Clean Utilities systems.
5.6 Regulations and standards relevant to Batch and Clean Utilities in the marine industry.
5.7 Security and cybersecurity in Batch and Clean Utilities systems.
5.8 Design principles for efficiency and reliability.
3.5 Introduction to Batch processes: operations management, workflow optimization.
3.5 Design and implementation of Batch scripts for specific tasks in the marine industry.
3.3 Automating fuel and resource management through Batch.
3.4 Using Batch for scheduling and optimizing fleet maintenance.
3.5 Automating data analysis and generating operational reports.
3.6 Integrating Batch with Ship Management Systems (SMS).
3.7 Remote monitoring and control of equipment using Batch.
3.8 Troubleshooting and optimizing the performance of Batch scripts.
4.5 Introduction to Clean Utilities: water systems, cleaning systems, waste management.
4.5 Selection and implementation of appropriate Clean Utilities systems for different types of vessels.
4.3 Design and programming of automated cleaning systems.
4.4 Optimization of water and energy consumption in Clean Utilities systems.
4.5 Waste management and compliance with environmental regulations.
4.6 Preventive and corrective maintenance of Clean Utilities systems.
4.7 Integration of Clean Utilities with Ship Management Systems (SMS) and SCADA systems.
4.8 Data analysis and optimization of Clean Utilities system performance.
5.5 Automation of energy management and fuel consumption.
5.5 Optimization of route scheduling and fleet management.
5.3 Automation of predictive maintenance and spare parts management. 5.4 Implementation of remote control and monitoring systems.
5.5 Use of sensors and data analysis to improve operational efficiency.
5.6 Integration of automation systems with navigation systems.
5.7 Automation of cargo loading and unloading processes.
5.8 Improved safety and risk reduction through automation.
6.5 Software platforms for naval automation: SCADA, HMI, PLC.
6.5 Programming and scripting languages ​​for naval automation.
6.3 Simulation and modeling tools for the design of automation systems.
6.4 Communication systems and industrial networks in naval environments.
6.5 Data analysis and artificial intelligence tools for optimization.
6.6 Cybersecurity and data protection in automation systems.
6.7 Advanced sensors and actuators for naval applications.
6.8 Design of intuitive user interfaces for control and monitoring.
7.5 Integration of automation systems with ship management systems (SMS).
7.5 Integration of automation systems with navigation and communication systems.
7.3 Implementation of remote control and monitoring systems.
7.4 Use of APIs and communication protocols for systems integration.
7.5 Design and implementation of dashboards and data visualization.
7.6 Automation of supply chain management in naval environments.
7.7 Integration of automation systems with power and propulsion systems.
7.8 Integration of automation systems with safety systems.
8.5 Case study: Automation of the engine room on a merchant ship.
8.5 Case study: Implementation of an automated ballast water management system.
8.3 Case study: Optimization of fuel consumption in a fleet of ships.
8.4 Case study: Automation of loading and unloading processes in a port. 8.5 Case study: Implementation of a remote monitoring system on an offshore platform.
8.6 Analysis of the results and benefits of automation in the case studies.
8.7 Lessons learned and best practices in the implementation of naval automation.
8.8 Future trends and opportunities in the automation of the naval industry.
6.6 Introduction to Batch Automation and Clean Utilities in the Naval Industry
6.2 Batch Automation Fundamentals: Commands and Scripts
6.3 Clean Utilities Tools: System Cleaning and Optimization
6.4 Automation of Common Tasks: Maintenance and Management Processes
6.5 Optimizing Operational Efficiency: Reducing Time and Costs
6.6 Integrating Automation in Naval Environments
6.7 Security and Data Protection in Automation
6.8 Monitoring and Controlling Automation: Performance and Troubleshooting
6.9 Case Studies: Practical Applications in the Naval Industry
6.60 Future Trends: Innovation in Naval Automation
7.7 Importance of Automation in the Naval Industry
7.2 Introduction to Naval Systems and Their Challenges
7.3 Benefits of Automation in Maritime Operations
7.4 Course Overview and Learning Objectives
7.7 Key Concepts: Batch and Clean Utilities
2.7 Definition and Functions of Batch in Naval Environments
2.2 Fundamentals of Clean Utilities: Purpose and Applications
2.3 Types of Clean Utilities and Their Characteristics
2.4 Architecture and Operation of Batch Systems
2.7 Importance of Cleaning and Maintenance in the Naval Industry
3.7 Optimization of Naval Processes through Batch
3.2 Batch Configuration and Programming for Specific Tasks
3.3 Automation of Maintenance and Cleaning Routines
3.4 Remote Monitoring and Control of Batch Systems
3.7 Strategies for Continuous Improvement with Batch
4.7 Selection and Implementation of Clean Utilities
4.2 Cleaning Protocols and Standards in the Naval Industry
4.3 Design and Optimization of Cleaning Systems
4.4 Quality Control and Analysis of Cleaning Results
4.7 Best Practices for Implementing Clean Utilities
7.7 Automation of Navigation and Communication Systems
7.2 Automation of Fleet and Logistics Management
7.3 Integration of Sensors and IoT Devices in Naval Environments
7.4 Implementing Automation for Maritime Safety
7.7 Impact of Automation on Operational Efficiency
6.7 Software Tools for Batch Automation
6.2 Software for Monitoring and Controlling Clean Utilities
6.3 Data Management Systems for Automation
6.4 Cybersecurity in Naval Automation Systems
6.7 Integration with Fleet Management Systems (FMS)
7.7 Integration of Automation Systems with Platforms Existing
7.2 Applications of Automation in Different Types of Vessels
7.3 Integration of Automation in Port Management
7.4 The Future of Automation in the Shipbuilding Industry
7.7 Challenges and Opportunities in Implementation
8.7 Case Studies of Successful Ship Automation
8.2 Analysis of Fleet Optimization Case Studies
8.3 Evaluation of Successful Clean Utilities Implementations
8.4 Lessons Learned and Best Practices
8.7 Future Trends and the Impact of Automation
8.7
8.8 Fundamentals of Batch Automation in Naval Environments
8.8 Configuring and Using Clean Utilities in Maritime Operations
8.3 Implementing Scripts and Task Automation
8.4 Process Optimization Using Batch and Clean Utilities
8.5 System Integration and Compatibility in Naval Environments
8.6 Troubleshooting and Analysis in Naval Automation
8.7 Best Practices in Automation Security and Maintenance
8.8 Advanced Tools and Customization in Naval Operations
8.8 Data Management and Version Control in Automation
8.80 Case Studies: Real-World Applications in the Naval Industry
8.9
9.9 Introduction to Batch Automation: Fundamental Concepts
9.9 Scripting and Scripting Languages ​​in Naval Environments
9.3 Designing and Creating Batch Scripts for Specific Tasks
9.4 Process Automation: Scheduled Execution and Triggers
9.5 Error Handling and Event Logging in Batch Scripts
9.6 Practical Applications: Naval Maintenance Automation
9.7 Practical Applications: Onboard Operations Automation
9.8 Performance Optimization: Best Practices in Batch Scripts
9.9 System Integration: Interacting with Naval Software
9.90 Case Studies: Successful Implementation in the Industry
9.1
**Module 1: Mastering Batch and Clean Utilities Automation for Naval Optimization**
1.1 Introduction to Batch and Clean Utilities Automation in the Naval Industry
1.2 Batch System Fundamentals: Design and Programming
1.3 Implementation of Clean Utilities: Clean Water, Air, and Gases
1.4 Process Optimization: Analysis of Naval Requirements
1.5 Automation Tools: Selection and Configuration
1.6 Scripting and Programming for Batch Automation
1.7 Design of Control Systems for Clean Utilities
1.8 Testing and Validation of Automated Systems
1.9 Continuous Improvement and Maintenance of Automation
1.10 Case Study: Optimization of a Specific Naval Process
**Module 2: Expert Implementation of Batch Automation and Clean Utilities in Naval Environments**
2.1 Risk and Security Analysis in Naval Automation
2.2 Design of Batch Automation Architectures
2.3 Integration of Clean Utilities with Existing Systems
2.4 Advanced Programming for Batch Automation
2.5 Implementation of SCADA Systems for Control and Monitoring
2.6 Data Management and Reporting in Automated Systems
2.7 Cybersecurity in Naval Automation Environments
2.8 Simulation and Modeling of Automated Systems
2.9 Improving Energy Efficiency in Clean Utilities
2.10 Practical Project: Implementation of an Automation System
**Module 3: Naval Optimization: Batch Automation and Clean Utilities**
3.1 Identifying Optimization Opportunities
3.2 Designing Customized Automation Solutions
3.3 Selection and application of sensors and actuators.
3.4 Integration of distributed control systems (DCS).
3.5 Automation of critical processes in naval operations.
3.6 Optimization of resource consumption in clean utilities.
3.7 Cost analysis and return on investment (ROI).
3.8 Remote monitoring and control of automated systems.
3.9 Predictive and preventive maintenance in automation.
3.10 Case study: Optimization of a specific naval process.
**Module 4: Master’s Degree in Batch and Clean Utilities Automation for the Naval Industry**
4.1 Advanced design of batch automation systems.
4.2 Implementation of high-purity clean utility systems.
4.3 Network and communication architectures in automation.
4.4 Object-oriented programming for automation.
4.5 Integration of automation systems with ERP. 4.6 Artificial intelligence and machine learning in automation.
4.7 Lifecycle management of automated systems.
4.8 Regulatory compliance and industry standards.
4.9 Leadership and management of naval automation projects.
4.10 Final project: Design and implementation of an integrated system.
**Module 5: Batch and Clean Utilities Automation: A Course for Naval Excellence**
5.1 Introduction to naval automation systems.
5.2 Key components of batch automation.
5.3 Design and configuration of clean utilities systems.
5.4 Practical applications in naval operations.
5.5 Software tools for automation.
5.6 Basic scripting and programming.
5.7 Control and monitoring of automated systems.
5.8 Continuous improvement and process optimization.
5.9 Security and cybersecurity aspects. 5.10 Case Study: Optimization of a Specific Process
**Module 6: Batch and Clean Utilities Automation: Key Tools for Naval Efficiency**
6.1 Identifying Processes Suitable for Automation
6.2 Selecting Appropriate Hardware and Software
6.3 Designing Intuitive Human-Machine Interfaces (HMIs)
6.4 Implementing PID Control Systems
6.5 Integrating Sensors and Actuators into Batch Systems
6.6 Optimizing Energy Consumption in Clean Utilities
6.7 Failure Analysis and Troubleshooting
6.8 Documentation and Operating Manuals
6.9 Future Trends in Naval Automation
6.10 Practical Project: Automating a Naval Process
**Module 7: Automation and Cleaning Mastery: Enhancing Efficiency in Naval Operations**
7.1 Requirements Analysis and Solution Design
7.2 Programmable Logic Controller (PLC) Programming
7.3 SCADA System Configuration for Control and Monitoring
7.4 Design and Implementation of Cleaning Systems
7.5 Integration of Automation and Cleaning Systems
7.6 Process Optimization and Energy Efficiency
7.7 Data Management and Performance Analysis
7.8 Preventive and Corrective Maintenance
7.9 Compliance with Regulations and Standards
7.10 Case Study: Optimization of a Naval Process
**Module 8: Specialization in Batch Automation and Clean Utilities for the Naval Industry**
8.1 Design of Complex Automation Architectures
8.2 Implementation of Advanced Control Systems 8.3 Integration of artificial intelligence in automation.
8.4 Design and implementation of next-generation Clean Utilities systems.
8.5 Cybersecurity and protection of automated systems.
8.6 Systems lifecycle management.
8.7 International regulations and standards.
8.8 Leadership and team management.
8.9 Future trends in naval automation.
8.10 Final project: Design and implementation of an integrated system.
- Hands-on methodology: test-before-you-trust, design reviews, failure analysis, compliance evidence.
- Software (depending on licenses/partners): MATLAB/Simulink, Python (NumPy/SciPy), OpenVSP, SU2/OpenFOAM, Nastran/Abaqus, AMESim/Modelica, acoustics tools, planning toolchains DO-178C.
- SEIUM Laboratories: scale rotor bench, vibrations/acoustics, EMC/Lightning pre-compliance, HIL/SIL for AFCS, data acquisition with strain gauging.
- Standards and compliance: EN 9100, 17025, ISO 27001, GDPR.
Proyectos tipo capstones
Admisiones, tasas y becas
- Profile: Background in Computer Engineering, Mathematics, Statistics, or related fields; practical experience in NLP and valued information retrieval systems.
- Documentation: Updated CV, academic transcript, SOP/statement of purpose, project examples or code (optional).
- Process: Application → Technical evaluation of profile and experience → Technical interview → Review of case studies → Final decision → Enrollment.
- Fees:
- Single payment: 10% discount.
- Payment in 3 installments: No fees; 30% upon registration + 2 equal monthly payments of the remaining 35%.
Monthly payment: available with a 7% commission on the total; annual review.
Scholarships: based on academic merit, financial need, and promoting inclusion; agreements with companies in the sector for partial or full scholarships.
See “Calendar & Calls for Applications,” “Scholarships & Grants,” and “Fees & Financing” in the SEIUM mega-menu.
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