smart grid fundamentals of design and analysis james momoh pdf

Smart grid fundamentals of design and analysis james momoh pdf

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Smart Grid Fundamentals of Design and Analysis By James Momoh

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The smart grid will require engineers and professionals with greater expertise and train-ing than the skilled workforce of today.

Smart Grid Fundamentals of Design and Analysis By James Momoh

Each student must exclusively turn in own work. In particular, students are not allowed to ask anyone but instructor for help with their homeworks or programming assignments.

However, they are free to discuss the topics and concepts of the course with their classmates, as long as they do not discuss the specifics of any assignment. Students are expected to make an honest, independent attempt to solve and turn in their answers to each homework question. Any violation of this policy could result in failure of the course. In order to solve the problem of the complete absence of knowledges on electrical power systems of some students, I am organizing, with the support of my collaborator Prof.

Marco Maccioni, a tutoring activity. By means of several lectures, some substitutive ones that is, held during the assigned class time and some integrative ones that is, held in addition to the assigned class time , we will try to fill the gaps on the electric power systems that could inhibit the learning of basic concepts of this course on Smart Grids.

This will obviously require an additional effort on your part, but also on our part, which will be absolutely voluntary for both sides. Days and hours will be agreed in such a way that everyone can participate to these additional activities. Elenco pubblicazioni. Incarichi ricoperti. Esiti e Calendario. Learning materials.

Notice board. Storage Systems for Electrical Energy. Mappa del sito. Please email me if you want an appointment outside of office hours, with the reason well explained. I can be reached for questions by electronic mail too. Sallam, OM P. There will be a midterm exam and a final one in this class. If a student, for any reason, does not give the midterm exam, or want to improve the grade obtained, he or she can give midterm and final exam as an all-in-one exam.

The exam is passed if the final grade taking in to account all assignments as in Grading exceeds 18 see Grading scale ; otherwise, the student will have to give the final exam again.

The in-class exams are closed-book and closed-notes. In addition, d uring the exams, all electronic devices must turned off , as well as everything, except a calculator and the stationery material pens, pencils, erasers etc.

Lecturer s. Alberto Geri. Course meeting times. Course description. The course introduces students to the new multi-disciplinary field of smart grids, approaching the theme from the distribution system operator DSO point of view. This course starts with an introduction to the broad subject of power distribution networks. It will initially focus on the analysis of existing distribution systems and their operation and protection.

The second part of the course will concentrate on the introducing the fundamental concepts and components of smart grids, as well as on their contribution on including renewables integration, plug-in hybrid electrical vehicle PHEV penetrations, demand side management, and greenhouse gas GHG emissions reductions. In the third part of the course, few case studies are presented: these cases are related to the most advanced pilot projects developed by some Italian utilities, in order to implement advanced smart grid technologies in their distribution networks.

Lectures will present much of the foundation of the course. Textbooks provide the basic concepts, vocabulary, and important details on which lecture material will be based. A few topics covered in the lectures may not be covered in the textbooks and vice versa. Most of the lectures time will be spent examining the specific topics and or examples that provide a meaningful context with the concepts presented in the textbooks. Assignments will be given at the end of some classes.

Malik, Wiley. PSB-Short Course. Kirtley, Wiley. Students must have attended the courses on the " Electrical Power Systems " and on the " Dynamics of Electrical Machines " ; possibly, they even should have passed the corresponding exams. Basic concepts on power systems and electrical machines are essential to understand the topics proposed in this course.

Reference " Principles of Power System ", V. This course has three main objectives: to analyse the structure of typical power systems and, in particular, of existing electrical distribution grids as well as their basic operation conditions; to present the student a vision of how smart grids will transform the current electricity grids to reliable and sustainable modern energy systems; to show the progression state of studies and achievements on smart grid technologies in Italy by analyzing pilot projects implemented on existing distribution networks.

Upon completion of this course students will be able to: understand the architecture of existing electrical power systems and their basic operation conditions; develop appropriate models for electrical distribution systems; perform distribution grid studies power flow, short circuit etc.

Grading scale. In Italy, for ordinary exams, universities use a point scale that can be devidet into failing 0 to 17 and passed 18 to 30 cum laude grades. Very good. Barely passing. Homeworks, which will be assigned approximately on bi- or three-weekly basis except during the week of the midterm exam , are expected to be sent to instructor in PDF format by email attachments. Late homeworks , in general, will be graded to zero , unless there are legitimate reasons: should a student anticipate that he or she cannot turn in the assignment on time, then he or she must inform the instructor BEFORE the assignment's due date.

Although, one ore more homeworks will be graded to zero, due to the non-compliance with deadlines , all assignments must be mandatory submitted before final exam , otherwise, student will not be admitted to the test. I outstanding. I and II. II outstanding. III and IV. Attendance and expectations. It is expected that students will spend twelve to fifteen hours on average per week, outside of class, on this course to review the class material, and work on homeworks, which will be assigned approximately on bi- or three-weekly basis, except during the week of the midterm exam.

It is also expect students have read over lecture materials ahead of class so that class time is used efficiently to explain concepts. It is preferred that students submit their questions by email, but if they come to office hours then they must have prepared questions. Attendance is expected but not required.

However, if a student chose to come to class, he must be prompt and he has to be seated in class before the beginning of the lecture. Cell phones and other electronic devices are to be silenced. No text messaging during class or exams. Assessment feedback. Students will receive feedback on all graded assessments i.

Verbalization calendars of passed exams will be also posted on the same web page: Exams. Students will be punctually informed on all available updates grade tables and verbalization calendars by posted notices on the web page: Notice board.

Last minute information. Urgent communications, such as variations of time or classroom of lectures or exams, or any other information about course or students, will be immediately posted on the web page: Notice board. Course introduction. Electric system structure.

Electric system operation. Why will we need a smarter grid? Power factor improvement. AL : Electrical design of OH lines. Performance of transmission lines 1. Performance of transmission lines 2. Design of MV distribution lines. Per-unit method.

Power flow 1 : theory. Power flow 2 : theory and numerical applications. Numerical applications: design of radial and ring lines.

Numerical applications: design of dorsal lines with laterals. Numerical applications: per-unit method. Earthing of electric distribution systems 1. Earthing of electric distribution systems 2. Short-circuit studies 1.

Short-circuit studies 2. Short-circuit studies 3. Numerical applications: unsymmetrical faults. Protection of electric distribution systems 1. Solution of the first homework: discussion. Protection of electric distribution systems 2. Protection of electric distribution systems 3. Protection of electric distribution systems 4.

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Indeed, the microgrid may be defined as the resources generation, storage, and loads within a boundary that are managed by the controller. The microgrid controller manages the resources within the microgrid s boundaries, at the point of interconnection with the utility, interacting with the utility during normal operations cooperative control. The microgrid controller defines the microgrid s operational relationship with the distribution utility. Interoperability requirements facilitates deployment. There also needs to be a balance between being prescriptive and providing a sufficient latitude to users to choose from a range of implementations and options to better meet the requirements of a given application. In the case of microgrid standards, a clear and simple set of required core functions needs to be defined and used for conformance testing to ensure interoperability of the offerings from different vendors, even though differing implementations are possible.

The book provides a fundamental discussion on the motivation for the smart grid development, the working definition and the tools for analysis and development of the Smart Grid. Standards and requirements needed for designing new devices, systems and products are discussed; the automation and computational techniques need to ensure that the Smart Grid guarantees adaptability, foresight alongside capability of handling new systems and components are discussed. The interoperability of different renewable energy sources are included to ensure that there will be minimum changes in the existing legacy system. Overall the book evaluates different options of computational intelligence, communication technology and decision support system to design various aspects of Smart Grid. Strategies for demonstration of Smart Grid schemes on selected problems are presented.


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Download the module specification. Good knowledge on electrical circuit analysis and power systems; basic knowledge on power electronics e. Bachelor in Power Systems Engineering. This module describes the different parts of Smart Grids and MicroGrids, their typologies and the agents involved in their control and management. Introduction to Smart Grid: objectives and benefits.

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