Energy storage technologies

Online course

80 hours / 10 weeks

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    Introduction

    With the rise of renewable energy sources, an escalating need for electrification, and sustainable solutions, Energy Storage Solutions (ESS) have emerged as critical cornerstones in the global energy shift. The great need for effective energy storage has never been more significant. With the new developments in renewable energy sources, and subsequence technologies there an escalating need for electrification, and an ever- expanding solution for sustainable solutions. Thus, ESS have emerged as critical cornerstones in the global energy shift.

    Objectives

    The course presents a comparative viewpoint, allowing you to evaluate the strengths and weaknesses of each technology, aiding informed decision- making for specific applications. This course provides comprehension of various energy storage technologies and their diverse applications. Whether you are a student, a researcher, an innovator, an engineer looking for sustainable solutions, a policymaker or an industry specialist searching for changes in the energy landscape, this course is tailored to meet your needs.


    Limited places.

    Module 1: INTRODUCTION TO ENERGY STORAGE SYSTEMS (ESS)

    • – The importance of Energy Storage Systems
    • – Historical overview of Energy Storage Systems
    • – Significance of Energy Storage in different sectors

    Module 2: THERMAL ENERGY STORAGE (TES) SYSYEMS

    • – Introduction to Thermal Energy Storage Systems
    • – Sensible Heat Storage (SHS) System
    • – Latent Heat Storage (LHS) System
    • – Thermochemical Energy Storage (TCES) System

    Module 3: MECHANICAL ENERGY STORAGE (MES) SYSTEMS

    • – Introduction to Mechanical Energy Storage Systems
    • – Pumped Hydro Energy Storage (PHES) System
    • – Gravity Energy Storage (GES) System
    • – Compressed Air Energy Storage (CAES) System
    • – Flywheel Energy Storage (FES) System

    Module 4: CHEMICAL ENERGY STORAGE (CES) SYSTEMS

    • – Introduction to Chemical Energy Storage Systems
    • – Hydrogen Energy Storage System
    • – Synthetic Natural Gas (SNG)
    • – Solar fuels

    Module 5: ELECTROCHEMICAL ENERGY STORAGE (EcES) SYSTEMS

    • – Introduction to Electrochemical Energy Storage Systems
    • – Battery Energy Storage (BES) System
    • – Flow Battery Energy Storage (FBES) system
    • – Paper batteries
    • – Flexible batteries

    Module 6: ELECTRICAL ENERGY STORAGE (EES) SYSTEMS

    • – Introduction to Electrical Energy Storage Systems
    • – Capacitors
    • – Subcapacitors
    • – Superconducting Magnetic Energy Storage (SMES) System

    Module 7: HYBRID ENERGY STORAGE (HES) SYSTEMS

    Module 8: COMPARISON AMONG THE ENERGY STORAGE SYSTEMS

    Module 9: CURRENT STATUS OF ENERGY STORAGE SYSTEMS

    Module 10: FUTURE TRENDS AND CHALLENGES

    References

    Samuel Howard

    Dr. Samuel is the Founder of TransPacific Energy Inc. He was for 25 years a Professor and Director of the Research Centre for Energy Conversion CRCE, the University of Moncton, a Research Associate at UNLV, and a lecturer at San Diego State University. and Professor and Director of (Renewable Energy Center (CER) at UCAUAE. He also regularly lectures in his area of expertise. He received his Ph. D from the University of Montreal, Canada, and JD from Novus Law School, US. He authored and co-authored over 240 published papers in highly indexed Scientific Journals on Energy Conversion and Management, Waste Heat to Power, Renewable Energy, Thermal storage, Refrigerant Mixtures, and their use in Waste Heat Recovery and Power Production as well as HVAC. Dr. Samuel works in hybrid renewable energy using magnetized nanofluids in PV solar, PV-thermal solar, CSP, Geothermal energy, Fuel Cell, Hydrogen production, Thermal Energy Storage, Biomass-driven ORCs, Wind Turbines, Solar-driven Desalination, and Solar-driven OTEC. Dr. Samuel specialized in remote power generation with Renewable Energy.

    Dr. Samuel holds 14 patents in refrigerants and refrigerant mixtures, thermodynamics, energy management, storage and conversion, heat recovery, and green energy as well as renewable energy. He also offered online and in-class courses in renewable energy at SDSU, University of San Diego, AAU., and NDU. Dr. Samuel is a fellow of ASME and ASHRAE. He is also the Editor-in-chief of IESJ and associate editor and guest-editor of several highly indexed journals.

    Also earned a Dispute Resolution Certificate from Pepperdine University, School of Law, CA, USA, and acts as a mediator and expert witness in energy management and renewable energy and industrial disputes and member of different Associations of Expert Witness.

    The course is delivered online through our easy-to-use Virtual Campus platform. For this course, a variety of content is provided including:

    – eLearning materials
    – Videos
    – Interactive multimedia content
    – Live webinar classes
    – Texts and technical articles
    – Case studies
    – Assignments and evaluation exercises

    Students can download the materials and work through the course at their own pace.
    We regularly update this course to ensure the latest news and state-of-the-art developments are covered, and your knowledge of the subject is current.

    Live webinars form part of our course delivery. These allow students and tutors to go through the course materials, exchange ideas and knowledge, and solve problems together in a virtual classroom setting. Students can also make use of the platform’s forum, a meeting point to interact with tutors and other students.

    The tutoring system is managed by email. Students can email the tutor with any questions about the course and the tutor will be happy to help.

    Energy storage is an important tool to secure constant renewable energy supply to power systems. Energy storage provides a solution to achieve flexibility, enhance grid reliability and power quality, and accommodate the scale-up of renewable energy. Engineers and technical staff working in the renewable energy sector. Energy consultants and advisors.

    Once a student finishes the course and successfully completes the assignments and evaluation tests, they are sent an accreditation certificate. The certificate is issued by Ingeoexpert to verify that the student has passed the course. It is a digital certificate that is unique and tamper-proof – it is protected by Blockchain technology. This means it is possible for anyone to check that it is an authentic, original document.

    You will be able to download the certificate in an electronic format from the Virtual Campus platform. The certificate can be forwarded by email, shared on social networks, and embedded on websites. To see an example, click

    Hydro and flywheels have their applications, but batteries are poised to dominate the energy storage market in the coming years. A recent report by McKinsey projects that the global battery market will grow fourfold between 2021 and 2030, reaching a value of over $400 billion (£315bn). Prospect high paying jobs are in the following area:

    • – Renewable Energy
    • – Senior Energy
    • – Energy
    • – Energy
    • – Certified Energy
    • – Energy
    • – Residential Energy
    • – Renewable Energy

    Introduction

    With the rise of renewable energy sources, an escalating need for electrification, and sustainable solutions, Energy Storage Solutions (ESS) have emerged as critical cornerstones in the global energy shift. The great need for effective energy storage has never been more significant. With the new developments in renewable energy sources, and subsequence technologies there an escalating need for electrification, and an ever- expanding solution for sustainable solutions. Thus, ESS have emerged as critical cornerstones in the global energy shift.

    Objectives

    The course presents a comparative viewpoint, allowing you to evaluate the strengths and weaknesses of each technology, aiding informed decision- making for specific applications. This course provides comprehension of various energy storage technologies and their diverse applications. Whether you are a student, a researcher, an innovator, an engineer looking for sustainable solutions, a policymaker or an industry specialist searching for changes in the energy landscape, this course is tailored to meet your needs.


    Limited places.

    Read more

    Module 1: INTRODUCTION TO ENERGY STORAGE SYSTEMS (ESS)

    • – The importance of Energy Storage Systems
    • – Historical overview of Energy Storage Systems
    • – Significance of Energy Storage in different sectors

    Module 2: THERMAL ENERGY STORAGE (TES) SYSYEMS

    • – Introduction to Thermal Energy Storage Systems
    • – Sensible Heat Storage (SHS) System
    • – Latent Heat Storage (LHS) System
    • – Thermochemical Energy Storage (TCES) System

    Module 3: MECHANICAL ENERGY STORAGE (MES) SYSTEMS

    • – Introduction to Mechanical Energy Storage Systems
    • – Pumped Hydro Energy Storage (PHES) System
    • – Gravity Energy Storage (GES) System
    • – Compressed Air Energy Storage (CAES) System
    • – Flywheel Energy Storage (FES) System

    Module 4: CHEMICAL ENERGY STORAGE (CES) SYSTEMS

    • – Introduction to Chemical Energy Storage Systems
    • – Hydrogen Energy Storage System
    • – Synthetic Natural Gas (SNG)
    • – Solar fuels

    Module 5: ELECTROCHEMICAL ENERGY STORAGE (EcES) SYSTEMS

    • – Introduction to Electrochemical Energy Storage Systems
    • – Battery Energy Storage (BES) System
    • – Flow Battery Energy Storage (FBES) system
    • – Paper batteries
    • – Flexible batteries

    Module 6: ELECTRICAL ENERGY STORAGE (EES) SYSTEMS

    • – Introduction to Electrical Energy Storage Systems
    • – Capacitors
    • – Subcapacitors
    • – Superconducting Magnetic Energy Storage (SMES) System

    Module 7: HYBRID ENERGY STORAGE (HES) SYSTEMS

    Module 8: COMPARISON AMONG THE ENERGY STORAGE SYSTEMS

    Module 9: CURRENT STATUS OF ENERGY STORAGE SYSTEMS

    Module 10: FUTURE TRENDS AND CHALLENGES

    References

    Read more

    Samuel Howard

    Dr. Samuel is the Founder of TransPacific Energy Inc. He was for 25 years a Professor and Director of the Research Centre for Energy Conversion CRCE, the University of Moncton, a Research Associate at UNLV, and a lecturer at San Diego State University. and Professor and Director of (Renewable Energy Center (CER) at UCAUAE. He also regularly lectures in his area of expertise. He received his Ph. D from the University of Montreal, Canada, and JD from Novus Law School, US. He authored and co-authored over 240 published papers in highly indexed Scientific Journals on Energy Conversion and Management, Waste Heat to Power, Renewable Energy, Thermal storage, Refrigerant Mixtures, and their use in Waste Heat Recovery and Power Production as well as HVAC. Dr. Samuel works in hybrid renewable energy using magnetized nanofluids in PV solar, PV-thermal solar, CSP, Geothermal energy, Fuel Cell, Hydrogen production, Thermal Energy Storage, Biomass-driven ORCs, Wind Turbines, Solar-driven Desalination, and Solar-driven OTEC. Dr. Samuel specialized in remote power generation with Renewable Energy.

    Dr. Samuel holds 14 patents in refrigerants and refrigerant mixtures, thermodynamics, energy management, storage and conversion, heat recovery, and green energy as well as renewable energy. He also offered online and in-class courses in renewable energy at SDSU, University of San Diego, AAU., and NDU. Dr. Samuel is a fellow of ASME and ASHRAE. He is also the Editor-in-chief of IESJ and associate editor and guest-editor of several highly indexed journals.

    Also earned a Dispute Resolution Certificate from Pepperdine University, School of Law, CA, USA, and acts as a mediator and expert witness in energy management and renewable energy and industrial disputes and member of different Associations of Expert Witness.

    Read more

    The course is delivered online through our easy-to-use Virtual Campus platform. For this course, a variety of content is provided including:

    – eLearning materials
    – Videos
    – Interactive multimedia content
    – Live webinar classes
    – Texts and technical articles
    – Case studies
    – Assignments and evaluation exercises

    Students can download the materials and work through the course at their own pace.
    We regularly update this course to ensure the latest news and state-of-the-art developments are covered, and your knowledge of the subject is current.

    Live webinars form part of our course delivery. These allow students and tutors to go through the course materials, exchange ideas and knowledge, and solve problems together in a virtual classroom setting. Students can also make use of the platform’s forum, a meeting point to interact with tutors and other students.

    The tutoring system is managed by email. Students can email the tutor with any questions about the course and the tutor will be happy to help.

    Read more

    Energy storage is an important tool to secure constant renewable energy supply to power systems. Energy storage provides a solution to achieve flexibility, enhance grid reliability and power quality, and accommodate the scale-up of renewable energy. Engineers and technical staff working in the renewable energy sector. Energy consultants and advisors.

    Read more

    Once a student finishes the course and successfully completes the assignments and evaluation tests, they are sent an accreditation certificate. The certificate is issued by Ingeoexpert to verify that the student has passed the course. It is a digital certificate that is unique and tamper-proof – it is protected by Blockchain technology. This means it is possible for anyone to check that it is an authentic, original document.

    You will be able to download the certificate in an electronic format from the Virtual Campus platform. The certificate can be forwarded by email, shared on social networks, and embedded on websites. To see an example, click

    Read more

    Hydro and flywheels have their applications, but batteries are poised to dominate the energy storage market in the coming years. A recent report by McKinsey projects that the global battery market will grow fourfold between 2021 and 2030, reaching a value of over $400 billion (£315bn). Prospect high paying jobs are in the following area:

    • – Renewable Energy
    • – Senior Energy
    • – Energy
    • – Energy
    • – Certified Energy
    • – Energy
    • – Residential Energy
    • – Renewable Energy

    Read more

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    Energy storage technologies

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    Energy storage technologies