fbpx


Self Paced

Sustainable Engineering and Green Technologies Program

Lead the Change for a Sustainable Future

MODE
Online/ e-LMS
TYPE
Self Paced
LEVEL
Beginners
DURATION
1 Month

About

This program is designed to help engineers and environmental professionals develop eco-friendly solutions that address today’s urgent sustainability challenges. Participants will gain an in-depth understanding of sustainable engineering, renewable energy systems, lifecycle analysis, and green manufacturing processes, all of which are crucial in the transition to a low-carbon economy.

Aim

To equip engineers with the knowledge and skills required to drive environmental responsibility through sustainable design, renewable energy integration, and green manufacturing practices.

Program Objectives

  • To instill core knowledge in sustainable engineering principles and practices.
  • To provide hands-on experience in developing sustainable, energy-efficient solutions.
  • To build expertise in lifecycle assessments and green technology integration.

Program Structure

The program is divided into five modules, each designed to provide practical knowledge and experience in sustainable engineering practices.

Module 1: Foundations of Sustainable Engineering

  • Overview: This introductory module covers the core principles of sustainable engineering, including environmental impact, resource conservation, and sustainable design.
  • Topics Covered:
    • Introduction to sustainable engineering
    • Environmental impact assessments
    • Sustainable design principles and standards
  • Project: Conduct an environmental impact assessment for a product, analyzing its resource usage and lifecycle impact.

Module 2: Renewable Energy Systems in Engineering

  • Overview: Focuses on the integration of renewable energy sources such as solar, wind, and hydropower into engineering applications.
  • Topics Covered:
    • Solar and wind energy systems in engineering
    • Biomass and geothermal energy applications
    • Energy storage solutions and grid integration
  • Project: Design a small-scale renewable energy system, such as a solar-powered water pump or a wind turbine model.

Module 3: Sustainable Manufacturing and Green Technologies

  • Overview: Learn sustainable manufacturing practices, including green manufacturing processes, waste reduction techniques, and energy-efficient production methods.
  • Topics Covered:
    • Green manufacturing technologies
    • Waste management and recycling in production
    • Energy-efficient manufacturing practices
  • Project: Develop a proposal for a sustainable manufacturing process that reduces energy consumption and waste production.

Module 4: Lifecycle Assessment and Eco-Friendly Product Design

  • Overview: Explore how lifecycle assessments (LCA) and eco-friendly designs reduce the environmental impact of products over their entire lifecycle.
  • Topics Covered:
    • Lifecycle assessment methodologies
    • Design for environment (DfE) principles
    • Material selection for eco-friendly product design
  • Project: Conduct a lifecycle assessment of a product and redesign it using eco-friendly materials and sustainable practices.

Module 5: Capstone Project in Sustainable Engineering

  • Overview: The capstone project enables you to apply what you’ve learned by designing a sustainable solution for a real-world challenge in your industry of choice.
  • Project Options:
    • Develop an energy-efficient system for a manufacturing facility.
    • Create a sustainable product using renewable materials.
    • Design a waste management process to improve resource efficiency in a production setting.
  • Outcome: Apply sustainable engineering principles to solve real-world environmental challenges, contributing to a more sustainable future.

Tools and Software Used

Gain practical experience with tools widely used in sustainable engineering:

  • RETScreen: A clean energy management software for evaluating renewable energy projects.
  • SimaPro: For conducting lifecycle assessments (LCA) and environmental impact studies.
  • AutoCAD and SolidWorks: Used to design eco-friendly products optimized for sustainable manufacturing.
  • Energy Modeling Tools: Software to analyze and optimize energy use in engineering applications.

Participant’s Eligibility

This program is suitable for:

  • Mechanical Engineers aiming to specialize in sustainable and green technologies.
  • Environmental Engineers and Designers interested in implementing eco-friendly designs.
  • Professionals in Manufacturing and Energy Sectors seeking sustainable, energy-efficient solutions.

Program Outcomes

By the end of the Sustainable Engineering and Green Technologies Program, you will:

  • Understand Sustainable Engineering Principles: Master core concepts in sustainable engineering, including environmental impact assessment and lifecycle analysis.
  • Implement Renewable Energy Systems: Design and apply renewable energy solutions to reduce carbon emissions and dependence on fossil fuels.
  • Optimize Manufacturing Processes: Learn green manufacturing practices that conserve energy and resources.
  • Design Eco-Friendly Products: Develop products that are environmentally responsible throughout their lifecycle.

Earn a Certification: Obtain a globally recognized certification that demonstrates your expertise in sustainable engineering and green technologies

Fee Structure

Standard Fee:           INR 9,998           USD 298

Discounted Fee:       INR 4999             USD 149

We are excited to announce that we now accept payments in over 20 global currencies, in addition to USD. Check out our list to see if your preferred currency is supported. Enjoy the convenience and flexibility of paying in your local currency!

List of Currencies

Batches

Spring
Summer

Autumn
Winter

FOR QUERIES, FEEDBACK OR ASSISTANCE

Contact Learner Support

Best of support with us

Phone (For Voice Call)


WhatsApp (For Call & Chat)

Key Takeaways

Program Assessment

Certification to this program will be based on the evaluation of following assignment (s)/ examinations:

Exam Weightage
Mid Term Assignments 50 %
Project Report Submission (Includes Mandatory Paper Publication) 50 %

To study the printed/online course material, submit and clear, the mid term assignments, project work/research study (in completion of project work/research study, a final report must be submitted) and the online examination, you are allotted a 1-month period. You will be awarded a certificate, only after successful completion/ and clearance of all the aforesaid assignment(s) and examinations.

Program Deliverables

  • Access to e-LMS
  • Real Time Project for Dissertation
  • Project Guidance
  • Paper Publication Opportunity
  • Self Assessment
  • Final Examination
  • e-Certification
  • e-Marksheet

Future Career Prospects

Graduates will be equipped for roles in sustainability-focused areas such as:

  • Renewable energy engineering
  • Sustainable product design
  • Green manufacturing

Enter the Hall of Fame!

Take your research to the next level!

Publication Opportunity
Potentially earn a place in our coveted Hall of Fame.

Centre of Excellence
Join the esteemed Centre of Excellence.

Networking and Learning
Network with industry leaders, access ongoing learning opportunities.

Hall of Fame
Get your groundbreaking work considered for publication in a prestigious Open Access Journal (worth ₹20,000/USD 1,000).

Achieve excellence and solidify your reputation among the elite!


×

Related Courses

Recent Feedbacks In Other Workshops

Good


Marina Nadales : 2024-12-03 at 2:27 am

Thanks


Dr. Mikhlid Hammad Almutairi : 2024-12-02 at 10:09 pm

The mentor was very knowledgeable and provided clear and useful information. I appreciate his More approach and ability to explain complex concepts simply.
Roman Blažek : 2024-11-27 at 1:11 pm

View All Feedbacks

Still have any Query?