International Symposium on Battery Technology: Advances and Future Trends

International Symposium on Battery Technology: Advances and Future Trends

Important Dates and Fees

The details of the conference can also be found on their official site.  Selected papers on battery technology will be published in reputed international journals.

  • Notifications of selected papers for journals:  30th February 2024
  • Full-Length Paper Submission:                          15th April 2024
Dates fo battery conference
Dates for battery conference
Fee for Battery Conference
Fee for Battery Conference

 

Symposium Organized by

VENUE

The symposium will be executed in Hybrid mode.

Pandit Deendayal Energy University (PDEU)

Knowledge Corridor, Raisan Village,
Gandhinagar – 382 426,
Gujarat (State), INDIA

Pandit Deendayal Energy University (PDEU)

Knowledge Corridor, Raisan Village,

Gandhinagar – 382 426,

Gujarat (State), INDIA

 

PDEU College in Gujrat

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Contact for  Paper

  • We are pleased to invite you to participate in the 1st International Symposium on “Battery Technology:
    Advances and Future Trends” to be held at PDEU Gandhinagar, Gujarat, India on 19 – 21 January 2024.
  • We
    look forward to having a larger participation from your research group.
  • The last date for Extended-abstract
    submission is 20 December 2023.
  • The paper submitted should be original work and should not have been submitted in another
    conference/symposium or journal. For any assistance/further information,
  • Submit the papers: BatterySymposium2024@pdpu.ac.in 

  • Email us: BatterySymposium@pdpu.ac.in
  • You can reach us using the QR code.

  • The paper submitted should be original work and should not have been submitted in another conference/symposium or journal.
  • For any assistance/further information, kindly write us by email: BatterySymposium@pdpu.ac.in or reach us using the QR code.

Publication

All the Selected Symposium Papers will be published in Applied Solar Energy with Springer Nature and a Russian Journal —Thermal Engineering (English). Please refer to the website (https://www.ictea.ca/blank-1) for template of symposium paper.

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Publication in Applied Solar Energy with Springer

  • All the Selected Symposium Papers will be published in Applied Solar Energy with Springer
    Nature and a Russian Journal —Thermal Engineering (English).
  • Please refer to the website

The objective of the Symposium

  • The objective of this symposium “Battery Technology: Advances and Future Trends” is to provide an up-to-
    date overview of the advancements in battery technology, focusing on recent developments, ongoing trends, and potential future directions.
  • The symposium aims to present a comprehensive analysis of the latest
  • innovations in Battery Technology on all fronts: Materials, Condition monitoring, Safety, Environmental aspects, Cooling technologies, battery chemistry, etc. By examining current research and industry developments, this Symposium seeks to offer insights into the challenges and opportunities within the field of battery technology.
  • Additionally, the symposium may explore the implications of these advancements in various sectors, such as renewable energy integration, electric vehicles, consumer electronics, grid storage, and more. Overall, the objective is to deliver a well-rounded and informative perspective on the state of battery
  •  technology, shedding light on its trajectory and impact on various industries and aspects of modern life.
International Symposium on Battery Technology_Advances and Future Trends2023 Cover
International Symposium on Battery Technology_Advances and Future Trends2023 Cover

Symposium Theme

Thrust areas of this symposium include, but are not limited to the following:

  • Multi-scale modeling of batteries, and battery cooling systems.
  • Experimental and theoretical investigations on batteries at multiple scales
  •  New battery materials
  •  Recent advances in various battery types: Lithium-ion Batteries, Solid State. Batteries, Carbon-Zinc
  • batteries, Lithium-Sulfur batteries, Magnesium-ion batteries, Lithium-air batteries, and Sodium-
  • Sulfur batteries, etc.
  • Battery management systems: Smart health and thermal management systems.
  • Degradation mechanisms in battery and battery aging.
  • Environmental considerations in handling of batteries from cradle to grave.
  • Solutions to Limit Thermal Run Away.
  • Role of sensor technology and AI/ML/IoT technologies in Battery management systems.
  • Optimized electro-chemical design.
  • Policies and industrial standards for preventing thermal runaway of batteries
  • Formation of dendrites for lithium-ion batteries.
  • Competitive Energy Storage Systems: Supercapacitors, Thermal Batteries, etc.
  • Comparison of alternative energy storage systems: Techno-Enviro-Economics analysis, life cycle
  • analysis, circularity, sustainability, reliability, and safety.
  • Challenges, solutions, and advances in manufacturing processes for the production of battery-operated vehicles.
  • Battery Technology in different sectors like Aviation, Naval, Mining, Space, defense, etc.
  • Battery Pack Modeling, State-of-Charge (SoC) and State-of-Health (SoH) Estimation.
  • Battery Chargers: Onboard, Wireless, Fast, and Ultra-Fast.

Battery Cooling | Advanced Thermal Solutions

  • Experts in battery technology will present their research and experience
  • It will be good for all people researchers, PhD students and industry experts who are looking to enhance their subject knowledge about battery technology
Battery Design Factors for its Selection
Battery Design Factors for its Selection

 

Topics for Research on Battery Technology

Lithium-Ion Battery Innovations:

  •  Overview of the current status of lithium-ion batteries.
  • Recent advancements in cathode and anode materials.
  • Strategies for enhancing energy density and cycle life.
  • . Safety improvements and thermal management.

Solid-State Batteries:

  • . Introduction to solid-state battery technology.
  • Advantages over traditional lithium-ion batteries.
  • Recent breakthroughs in solid electrolytes and their impact
  • Challenges and ongoing research efforts.

 Beyond Lithium: New Materials and Technologies:

  • Exploration of alternative materials (e.g., sodium, potassium) for batteries. b. Overview of promising technologies beyond lithium-ion. c. Considerations for scalability and commercial viability.

Applications in Various Sectors:

  • Energy storage for renewable sources:
  • Solar and wind integration.
  •  Electric vehicles: Advancements and challenges. c
  • Consumer electronics:
  • latest trends and demands.
  • Industrial and grid-level applications.

Environmental Considerations:

  •  Sustainable sourcing of materials.
  • Recycling and disposal challenges.
  • Life cycle analysis and environmental impact assessments.

 Challenges and Future Directions:

  • a. Remaining obstacles in battery technology.
  • b. Potential breakthroughs and areas for further research.
  • c. Collaboration between academia, industry, and government for accelerated development.
  • Citations for the research studies, articles, and sources referenced in the paper.

Theme for  Research Papers

  • Select any suitable research topic and present validations, key findings of your research
  • The following part is an example outline for a symposium paper on battery technology.
  • Please note that the content and details should be customized based on the specific focus of your symposium, the latest research findings, and any specific requirements or guidelines provided by the symposium organizers.
  • Example:  Advancements in Battery Technology: Powering the Future

Abstract:

  • This paper explores recent developments and advancements in battery technology, focusing on innovations that have the potential to shape the future of energy storage.
  • The discussions cover a range of topics, including improvements in lithium-ion batteries, emerging technologies such as solid-state batteries, and their applications in various sectors.

 Introduction:

  •  Brief overview of the current state of battery technology.
  • Background of relevant topics by previous researchers
  • Importance of energy storage in the context of renewable energy integration, electric vehicles, and portable electronics.
  • Present gaps in the literature

1. Define the Research Problem:

  • Clearly articulate the research problem or question that the study aims to address.
  • State the objectives and goals of the research.

2. Literature Review:

  • Review existing literature to understand the current state of knowledge in the field.
  • Identify gaps, controversies, or areas where further research is needed.
  • Build a theoretical framework that informs the study.

3. Formulate Hypotheses or Research Questions:

  • If applicable, develop hypotheses that can be tested.
  • Clearly state the research questions that guide the study.

4. Research  Design and Methodology

  • Research methodology refers to the systematic process followed by researchers to design, conduct, and analyze a study.
  • It outlines the procedures, techniques, and tools used to collect and analyze data, ensuring that the research is well-organized, credible, and capable of generating meaningful results.
  • The following is a general guide to research methodology:
    1. Choose the overall approach to the study (e.g., experimental, observational, survey).
    2. Define the population or sample to be studied.
    3. Select data collection methods (e.g., surveys, experiments, interviews).
    4. Outline the overall structure of the study.

5. Data Collection:

  • Describe the methods used to gather data.
  • Choose tools and instruments (e.g., surveys, interviews, sensors).
  • Specify sampling techniques if applicable.
  • Discuss the ethical considerations and obtain necessary approvals.

6. Data Analysis:

  • Specify the statistical or qualitative methods to be used for analysis.
  • Plan for coding, categorizing, and interpreting the data.
  • Consider any software tools for data analysis.

7. Results:

  • Present the findings in a clear and organized manner.
  • Use tables, charts, and graphs to illustrate results.
  • Discuss any patterns, trends, or significant findings.

8. Conclusion:

  • Summarize the key findings.
  • Relate the results back to the research questions or hypotheses.
  • Discuss the implications of the findings.

9. Discussion:

  • Interpret the results in the context of existing literature.
  • Discuss limitations and potential sources of bias.
  • Suggest areas for future research.

10. Writing the Research Report:

  • Structure the report following academic or industry standards.
  • Include an abstract, introduction, literature review, methodology, results, discussion, conclusion, and references.

11. Peer Review:

  • If applicable, submit the research for peer review to receive feedback from experts in the field.

12. Revision and Finalization:

  • Revise the research based on feedback.
  • Finalize the research report for publication or presentation.

Refer the posts on battery Technology for CFD Modeling

causes and prevention of fires in batteries of Electric vehicles
Causes and Prevention of fires in batteries of Electric vehicles

 

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