PDF Solar Energy Conversion. An Introductory Course

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Organic materials offer a cheaper and easier way to increase efficiency in solar energy capture.

Increasing the efficiency of organic materials in solar energy capture will be a huge advance. Vladmir Michaelis is working with hybrid perovskites to develop non-traditional and more efficient solar cells. Jillian Buriak, Canada Research Chair in Nanomaterials for Energy , is working with increasing efficiency and decreasing the size of inorganic silicon-type solar cells. Examines psychometrics, thermal comfort, building heating and cooling loads, fluid flow basics, and HVAC components and systems. Prerequisites vary. Restricted for College of Engineering.

Engineering course devoted to building automation and control systems. Topics include HVAC control technology and strategies, measurement and device technologies, analysis and modeling of dynamic systems, simulation of conventional and advanced control approaches, assessment of control loop performance and hands-on direct digital control DDC programming exercises as used in current building control practice. Prerequisite: Aren Restricted to students with credits senior in the College of Engineering. Prepares graduate students with general knowledge and skills that are required by advanced AREN technical courses.

Covers three parts of materials: 1 building thermal systems, 2 building lighting systems, 3 building electrical systems.

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Requisites: Graduate students only. Analyzes and measures performance of HVAC systems, envelopes, lighting and hot water systems, and modifications to reduce energy use. Emphasizes existing buildings.

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  • Solar energy!

Restricted to graduate students only. Prerequisites: Aren Addresses the opportunities and problems of commercializing new renewable energy technologies. Focuses on energy markets, opportunity identification, life cycle analysis, policy economics, project financing and economic analysis as they relate to bringing renewable energy technologies to market.

Prerequisites: Varies. Explains the most important energy technologies and systems; provides tools to analyze performance using science and engineering principles. This course will investigate important energy concepts from sources and extraction to utilization, storage and efficiency. Topics include fossil fuels, hydropower, renewable energy, biofuels, carbon capture and waste disposal.

Restricted to College of Engineering majors. Chemical principles of conversion of solar energy into electricity and fuels in molecular and semiconductor-based systems. Overview of solid-state electronic structure of materials and interfaces, light-matter interactions, principles of harvesting photoexcited currents and useful chemical species.

Description of processes utilized in established and emerging solar energy technologies. Explores how energy is generated and used in today's society. Through collaborative discussion and hands-on data collection, students will analyze the engineering challenges, fundamental limits, and potential solutions to meeting our energy needs sustainably. Students will learn to analyze numerical data, estimate orders of magnitude, and apply mathematical methods in their own lives and in the ongoing energy debate. Basic algebra required. College of Engineering excluded from course.

Introduces electrical power generation and renewable energy, including solar, wind, micro, hydro, coal, nuclear and natural gas and some of the issues in integrating renewable energy sources in the grid. Prerequisite:PHYS Corequisite: ECEN Explores the fundamentals of climate change science, but from an engineering perspective. After learning the fundamentals, the relationship between climate change and different engineering disciplines will be discussed.

Topics covered include geoengineering, renewable energy, sustainable engineering, coastal engineering, building design, etc. Career options and entrepreneurial opportunities will also be discussed. Prerequisites: Phys and Appm Restricted to College of Engineering. College of Engineering students excluded.

Restricted to College of Engineering students. Real and reactive power in single phase circuits, power triangle, balanced three-phase circuits, wye and delta connections, introduction to electromagnetic machines, transformers single and three-phase and their equivalent circuits, AC-machinery fundamentals, synchronous generator from a magnetic field point of view, synchronous motors and condensers, three-phase induction motors, DC machinery fundamentals, DC motors, single phase motors. Examines a special topic in Electrical, Computer and Energy Engineering.

Explores how geological processes and human populations together affect the quantitfy, quality and availability of Earth resources.

Solar Energy Conversion Systems

Includes examination of the water cycle and how humans use and modify water; fossil-fuel and mineral resources, and renewable energy options. Sustainable versus non-sustainable use and population growth is considered.

Explore alternative energy, medical devices, phones, internet, recycling, cook stoves, clean water, sanitation and infrastructure. College of Engineering students only. Nice introduction to practical solar installations. The lecture was clear and appropriate. The materials were easy to follow. Peer review assignments can only be submitted and reviewed once your session has begun. If you choose to explore the course without purchasing, you may not be able to access certain assignments.

When you purchase a Certificate you get access to all course materials, including graded assignments. Upon completing the course, your electronic Certificate will be added to your Accomplishments page - from there, you can print your Certificate or add it to your LinkedIn profile. If you only want to read and view the course content, you can audit the course for free. More questions? Visit the Learner Help Center. Browse Chevron Right. Physical Science and Engineering Chevron Right. Environmental Science and Sustainability. Solar Energy Basics.

Solar Energy Basics

Offered By. The State University of New York. About this Course 30, recent views. Flexible deadlines. Flexible deadlines Reset deadlines in accordance to your schedule.

Lawrence Technological University

Beginner Level. Hours to complete.

Available languages. English Subtitles: English. What you will learn Check Calculate the energy usage at a location. Check Design a basic photovoltaic system to meet a specific energy need at a specific location.


Energy resources: Solar energy - OpenLearn - Open University - S_6

Check Describe financial models and trends in the photovoltaic energy field. Chevron Left. Syllabus - What you will learn from this course. Video 10 videos. Welcome to Solar Energy Basics 2m. Primary energy sources 3m. Transformation of Energy 3m. Solar energy 4m. Photovoltaic cells and modules 3m. Silicon-based Photovoltaics 4m.