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Industrial Energy Management: Audits, Optimization & Savings
Published 11/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 6.67 GB | Duration: 6h 58m[/center]
Master energy audits, heat recovery, and sustainable solutions to optimize energy use in process industries.
What you'll learn
Understand Energy Management Fundamentals: Learn key strategies, trends, and regulations for effective energy conservation in industries.
Conduct Effective Energy Audits: Identify energy savings through preliminary and detailed audits using tools like data loggers and flow meters.
Apply Energy and Mass Balances: Master energy/mass balances and use process flow diagrams to optimize energy in chemical processes.
Optimize with Thermodynamics and Exergy: Use thermodynamics laws and exergy analysis to find and reduce energy losses in processes.
Utilize Pinch Technology: Apply pinch analysis to set energy targets, design heat networks, and integrate heat recovery.
Enhance Distillation Efficiency: Apply energy-saving techniques in distillation, including pinch point identification and heat pump integration.
Integrate Renewable Energy Sources: Explore renewable energy and CHP systems to enhance sustainability in industrial processes.
Use Advanced Energy Management Tools: Gain skills in energy software, ISO 50001 standards, and best practices for continuous improvement.
Requirements
Basic Understanding of Industrial Processes: A foundational knowledge of industrial operations, particularly in chemical or process industries, will help students understand examples and case studies discussed in the course.
Familiarity with Basic Chemistry and Physics Concepts: While not mandatory, familiarity with basic principles in chemistry and physics, especially thermodynamics and heat transfer, will be advantageous.
Interest in Energy Conservation and Sustainability: A genuine interest in energy management, conservation, and sustainability will make the course more engaging and relevant.
No prior experience in energy management is required! This course is designed to take you from the basics to advanced techniques, making it suitable for beginners and professionals alike. Enthusiasm for learning about energy efficiency and sustainability is all you need to get started!
Description
Industrial Energy Management: Audits, Optimization & SavingsIn today's industrial world, energy efficiency isn't just a goal-it's a necessity. Industrial Energy Management: Audits, Optimization & Savings empowers you with the tools and strategies to tackle rising energy costs and meet sustainability targets head-on. This course goes beyond basic energy management, diving into proven techniques and advanced methods to drive efficiency and conservation in process industries. You'll gain hands-on skills in performing comprehensive energy audits, identifying energy-saving opportunities, and implementing solutions that bring immediate results.What You'll Learn:Conduct Effective Energy Audits: Learn how to perform detailed energy audits to uncover inefficiencies and savings potential using industry-standard tools.Optimize Energy Through Thermodynamics and Exergy Analysis: Understand the First and Second Laws of Thermodynamics and apply exergy analysis to identify and reduce energy losses.Implement Pinch Analysis for Process Integration: Discover how pinch technology can help you set energy targets, optimize heat recovery, and design cost-effective heat exchanger networks.Integrate Renewable Energy Sources: Explore renewable options like solar, biomass, and Combined Heat and Power (CHP) systems to make industrial processes more sustainable.Course Highlights and Value Addition:Hands-on Learning: Real-life case studies from chemical and process industries provide practical insights, showing you how to apply concepts in real-world scenarios.Industry-Relevant Tools: Gain proficiency with energy analysis software that is widely used across industries to optimize energy.Cutting-Edge Techniques: Learn advanced concepts like thermodynamic optimization, pinch analysis, and renewable integration to meet the latest industry standards in energy management.Actionable Skills for Career Growth: By the end of the course, you'll have a toolkit of actionable skills that can drive energy efficiency and sustainability efforts in your organization, making you a valuable asset to any industrial team.Why Enroll? This course is ideal for engineers, energy managers, sustainability advocates, and anyone aiming to optimize energy use in process industries. With practical tools, detailed knowledge, and strategic insights, you'll be equipped to lead impactful energy management initiatives that support both environmental goals and cost reduction. Enroll today and take a decisive step towards a greener, more efficient future!
Overview
Section 1: Introduction
Lecture 1 Course overview
Lecture 2 Resources
Section 2: Introduction to Energy Management
Lecture 3 Introduction to Energy Management- part1
Lecture 4 Introduction to Energy Management- part2
Section 3: Energy and process Optimization
Lecture 5 Energy and process optimization
Lecture 6 Energy Intensity
Section 4: Energy Benchmarking
Lecture 7 Energy Benchmarking
Lecture 8 Specific energy
Section 5: Energy Efficiency Indicators Overview
Lecture 9 Energy Efficiency Indicators Overview
Section 6: Introduction to Energy Audits
Lecture 10 Introduction to Energy Audits
Lecture 11 Energy loss audit
Section 7: Introduction to Energy and Material Balances
Lecture 12 Introduction to Energy and Material Balances
Section 8: Law of Thermodynamics
Lecture 13 Law of Thermodynamics
Section 9: Distillation Energy Management
Lecture 14 Distillation Energy Management
Section 10: Introduction to Distillation Pinch
Lecture 15 Introduction to Distillation Pinch
Lecture 16 Pinch technology applied to distillation column
Section 11: Understanding the operational and hydraulic constraints of distillation column
Lecture 17 Hydraulic and operational constraints
Lecture 18 capacity diagram
Lecture 19 vapour handling limitations
Lecture 20 Liquid handling limitations
Lecture 21 Insight from capacity diagram
Lecture 22 How capacity diagram can be used for optimization
Section 12: Introduction to Energy Savings in Distillation
Lecture 23 Introduction to Energy Savings in Distillation
Lecture 24 Case studies
Section 13: Optimization of distillation column
Lecture 25 How to increase profit from a running distillation column
Lecture 26 Optimize feed condition
Lecture 27 Case study
Lecture 28 How improved heat integration can boost profit in running distillation column?
Lecture 29 Enhance column efficiency to boost profit
Lecture 30 How to increase column efficiency?
Lecture 31 Optimize operating conditions
Lecture 32 Steps to optimize operating conditions
Lecture 33 How to minimize energy consumption in running distillation column?
Lecture 34 Overview of optimization in distillation column
Section 14: Energy Management in Reactor Systems
Lecture 35 Energy Management in Reactor Systems
Lecture 36 Heat Integration Across Reactor Systems
Section 15: Introduction to Renewable Energy in Chemical Industries
Lecture 37 Introduction to Renewable Energy in Chemical Industries
Section 16: Cogeneration and Combined Heat and Power (CHP)
Lecture 38 Cogeneration and Combined Heat and Power (CHP)
Section 17: Emerging Technologies
Lecture 39 Emerging Technologies
Section 18: Carbon Capture, Utilization, and Storage (CCUS) - Overview
Lecture 40 Carbon Capture, Utilization, and Storage (CCUS) - Overview
This course is designed for anyone interested in understanding and implementing energy management strategies within industrial settings.,Engineers and Technical Professionals: Engineers working in process industries, chemical plants, refineries, and manufacturing who want to enhance their skills in energy management and improve operational efficiency.,Energy Managers and Sustainability Officers: Professionals responsible for optimizing energy usage, reducing costs, and implementing sustainability initiatives within their organizations.,Students and Graduates in Engineering and Environmental Science: Aspiring engineers, students, and recent graduates in fields like chemical engineering, mechanical engineering, and environmental science who want to gain practical knowledge on energy conservation and sustainability practices.,Industrial Managers and Decision Makers: Managers, supervisors, and decision-makers in industries seeking insights on reducing energy costs, meeting regulatory standards, and adopting sustainable practices.,Environmental Consultants and Auditors: Consultants who specialize in environmental impact, energy audits, and sustainability assessments will benefit from advanced techniques for energy efficiency.,No prior experience in energy management is required-the course covers foundational concepts and progresses to advanced applications, making it accessible for beginners and a valuable resource for experienced professionals seeking to deepen their expertise. If you're committed to sustainability, energy savings, and innovation in process optimization, this course is for you!
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