Learn about energy-saving solutions in an industrial, commercial, and various context with the Energy Efficiency and Sustainability certification by Getsmarter.
Sustainable energy usage has become a necessity, not only in order to deal with climate change but also to improve the performance of systems and the productivity of companies. The Energy Efficiency and Sustainability online course provides knowledge of energy efficiency as it is vital now to have good knowledge of energy efficiency for everyone engaged in the manufacturing, infrastructure, Petroleum management, energy, and transport industries.
The Energy Efficiency and Sustainability certification by Getsmarter and the University of Cape Town provides a thorough general overview and Economics of the energy efficiency environment. The course analyses recent energy sector changes, regulations and explores energy consumption in industrial and commercial contexts.
The Energy Efficiency and Sustainability online course teaches to verify energy efficiency by means of industry-accepted technologies and evaluate energy-efficiency project's financial feasibility and establish a solid strategic plan for intervention. The course teaches students how to make significant progress in the energy sector as well as how to implement effective energy efficiency measures in the energy sector. Thus the course emphasizes sustainable development.
The fees for the course Energy Efficiency and Sustainability is -
Head
Amount in INR
Programme fees
Rs. 68,811
Installment Plan
1st installment
Required before:
2025-02-04
Amount Due:
₹34,406.00 INR
2nd installment
Required before:
2025-03-06
Amount Due:
₹34,405.00 INR
Eligibility Criteria
Certification Qualifying Details
A candidate must complete all elements of the course, including surveys, modules, live polls, practicals, and assignments to qualify for the Energy Efficiency and Sustainability certification. students are evaluated through a series of examinations and practice assessments. A trainee must satisfy all of the criteria listed in the material book of course in order to be certified. The material book is provided at the time of admission.
What you will learn
Knowledge of computer applicationKnowledge of clean energy
Upon the completion of the Energy Efficiency and Sustainability certification syllabus, candidates will develop an understanding of energy-efficiency ideas, as well as the ability to analyze, recommend, and execute energy-saving methods in new and existing buildings. Candidates will learn how to analyze energy flows, conduct energy audits, and compile and communicate findings to appropriate stakeholders.
The Energy Efficiency and Sustainability certification course is ideal for professionals such as:
Interior Designer
Civil Engineer
Architect
Conservation Architect
Lanscape Architect
Interior Architect
Admission Details
The Admission Process of the Energy Efficiency and Sustainability tutorial is totally online, just follow the steps mentioned below:
Step 1. Go to the official course webpage.
Step 2. To initiate the enrollment process, tap the 'Register Now' button.
Step 3. Continue to abide by the terms and regulations by ticking the consent box.
Step 4. Feel free to fill in private details and start creating your profile.
Step 5. Continue to the checkout page by providing your billing information.
Step 6. Pay the fee with a credit card/debit card/EFT/Bank Transfer and begin the program
Application Details
Candidates who wish to apply for the Energy Efficiency and Sustainability Certification course needs to fill in their personal profile (first and last name, e-mail). They need to create a new password for their account. Then they can proceed with the billing process.
The Syllabus
Define energy efficiency and terms associated with energy efficiency
Describe the benefits of implementing energy-efficiency measures
Outline energy-efficiency strategies being implemented in South Africa
Identify barriers to implementing energy-efficiency measures, and ways to overcome these barriers
Review different energy metrics and what they represent
Outline the advantages and disadvantages of various cost–benefit indicators
Use basic financial terms associated with energy efficiency
Calculate the profitability of an energy-efficiency project using various financial indicators
Analyse the viability of implementing an energy-efficiency measure
Recall what comprises a sustainable building
Outline how passive design strategies can be used in sustainable building design
Discuss the characteristics of sustainable building materials
Explain what a green building rating is used for and how it is achieved
Demonstrate how to navigate the SANS energy-efficiency regulations
Apply principles of sustainable building to a scenario
Relate how demand-side management can contribute to energy efficiency and cost savings
Determine how to reduce electricity costs using various methods
Investigate how energy can be saved by using energy-efficient lighting
Compare various water-heating technologies
Investigate how HVAC can be made more energy efficient
Assess how lighting and HVAC impact energy efficiency
Discuss typical energy applications and uses in industry
Calculate the efficiency of a boiler
Investigate how heat loss can be minimised in boilers and in furnaces
Compare different types of motors, pumps, fans, and compressors
Assess how to reduce energy wastage in motor-driven systems
Evaluate the efficiency of motor-driven systems
Investigate emerging technologies for industrial applications
Determine the steps involved in preparing for an energy audit
Deduce energy flows and large energy uses in a facility
Analyse energy audit data
Recommend energy-saving measures
Draft an energy audit report
Explain the importance of M&V and the role of M&V literature
Outline the components of an M&V plan
Apply routine and non-routine adjustments to a baseline
Investigate areas of uncertainty in M&V and how to deal with uncertainty
Evaluate the effectiveness of M&V and an energy conservation measure
Identify the main principles of the ISO 50001 standard
Discuss the key elements and importance of an energy management system
Show how to implement an energy management system
Deduce if targets are being met, using energy performance indicators
Recommend system improvements based on performance
Draft an action plan to fulfil a policy objective of an energy management system