You will assimilate the applications of Artificial Intelligence in Chemical Engineering in a fast way through the innovative Relearning methodology implemented in this program"

The incorporation of digital and disruptive technologies is transforming the Chemical Industry. Specifically, virtual tools such as Artificial Intelligence accelerate material discovery and model reactions, improving efficiency and empowering scientific evidence-based decision making. On the other hand, the Blockchain ensures traceability in contexts such as supply chains, guaranteeing the authenticity of products, simplifies record management, and facilitates secure transactions. Therefore, through all these innovative resources, companies in the sector can adapt and prosper in a changing environment. 

At the same time, keeping abreast of technological advances in this field has become a challenge and a requirement for professionals in the Chemical Industry. Faced with this situation, TECH has designed this postgraduate diploma where students will have an up-to-date syllabus that will address all the complexities of the new digital and robotic resources. 

The program, in the first place, delves into different virtual facilities that enhance research and production within the sector. It also delves into those that promote process security and transparency. In addition, it focuses on the sustainable use of biomass and its various conversions. Finally, the student will have the opportunity to examine the relationship between research, innovation, and communication in the most cutting-edge areas 
of Chemistry. 

This educational itinerary will take place on a 100% online platform, which facilitates access to explanatory videos, interactive summaries, and other multimedia resources. For the approach of its contents, the Relearning methodology will be applied, which allows the assimilation of complex concepts and skills through repetition. In addition to all this, there is the opportunity to freely access the study materials, without hermetic schedules and their availability through any device connected to the Internet. Definitively, TECH offers its graduates the possibility of updating their knowledge at any time and in any part of the world. 

Don't miss the opportunity to holistically address sustainable uses of biomass and its various conversions"

This postgraduate diploma in Advanced Technologies in Chemical Industry contains the most complete and up-to-date program on the market. The most important features include: 

• The development of case studies presented by experts in Chemical Engineering
• The graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
• Practical exercises where self-assessment can be used to improve learning
• Its special emphasis on innovative methodologies 
• Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
• Content that is accessible from any fixed or portable device with an Internet connection

After this program you will master the relationships between research, innovation, and communication in Chemical Industry"

The program’s teaching staff includes professionals from the field who contribute their work experience to this educational program, as well as renowned specialists from leading societies and prestigious universities. 

The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive education programmed to learn in real situations. 

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the educational year. For this purpose, the students will be assisted by an innovative interactive video system created by renowned and experienced experts.

A 6-month educational itinerary that you can access from the portable device of your choice"

You will handle various technologies such as Blockchain and its impact on the Chemical Industry through this comprehensive program"

The central premise of this postgraduate diploma is to provide the student with the most up-to-date knowledge and skills in relation to the technologies that operate in the Chemical Industry today. Specifically, the program will delve into advances such as Nanotechnology and the most sophisticated robotic tools for this professional area. In this way, the syllabus is oriented towards the integral training of graduates, offering them a profile of excellence with which they will be able to take on challenges such as the green uses of chemistry, and the postulates of the 2030 Agenda. 

Delve into the communication tools that facilitate the dissemination of scientific results of the Chemical Industry through this program"

General Objectives

• Analyze the principles and methods for the separation of substances in multicomponent systems
• Master advanced techniques and tools for the configuration of heat exchange networks
• Apply fundamental concepts in the design of chemical products and processes
• Integrate environmental considerations in the design of chemical processes
• Analyze optimization techniques and simulation of chemical processes
• Apply simulation techniques to common unit operations in the chemical industry
• Examine the multi-product industry and strategies for its optimization
• Raise awareness of the importance of sustainability in terms of economy, environment, and society
• Promote environmental management in the chemical industry
• Compile technological advances in Chemical Engineering
• Evaluate the applicability and potential advantages of new technologies
• Develop a comprehensive view of modern chemical engineering
• Contextualize the importance of biomass in the current framework of sustainable development
• Determine the importance of biomass as an energy resource
• Examine the current situation of L+O+I in Chemical Engineering in order to highlight its importance in the current sustainability framework
• Encourage innovation and creativity in the research processes in Chemical Engineering
• Analyze the ways of protection, exploitation, and communication of L+O+I results
• Explore job opportunities in L+O+I in Chemical Engineering
• Explore innovative applications of chemical reactors
• Promote the integration of theoretical and practical aspects of chemical reactor design

Specific Objectives

Module 1. Technological Advances in Chemical Engineering

• Analyze the relevant technologies in the treatment of industrial effluents
• Compile catalytic technologies applied to environmental processes of interest
• Explore those involved in the treatment of solid particulate materials
• Develop innovative chemical synthesis strategies
• Compile the latest advances in Biotechnology and Nanotechnology
• Analyze the importance of digitalization in the chemical industry
• Evaluate the impact of Blockchain and artificial intelligence on the chemical industry

Module 2. Biomass Utilization Technologies 

• Examine the role of biomass in achieving sustainable development goals
• Detail the types of biomass and their composition
• Analyze the advantages of using biomass as an energy resource
• Inspect the different pathways of mechanical, biological, chemical, and thermochemical conversion of biomass
• Determine the importance of biorefinery in the current framework of sustainability
• Examine biofuel generations and assess their feasibility
• Explore routes for biomass valorization
• Evaluate the integral valorization of waste biomass and its impact on the circular economy

Module 3. L+O+I Chemical Engineering

• Apply a rigorous scientific methodology in Chemical Engineering research
• Determine the importance of the creative process in L+O+I
• Compile strategies and types of innovation
• Review international financing options for L+O+I in Chemical Engineering
• Examine the protection of L+O+I results
• Effectively evaluate scientific communication and dissemination tools
• Analyze the potential of a research career in Chemical Engineering

An educational program that will allow you to achieve all your goals remotely, in the place and at the time of day of your choice"