Principle Of Electrical Engineering Et 115 Pdf

EET - Electrical/Electronic Engineering Technology EET 2000 Electrical Principles Cr. 3 Kirchhoff's laws, D.C. Circuit analysis, impedance, phasors, power and power factor correction, mutual coupling. 54 57 o 18 270 Principles Of Electrical Engineering ET 115 4 An inductive from ASRO 0123153 at Katholieke Universiteit Leuven.

12 Jul 2014

Here all Old / Past papers of DAE (Diploma of Associate Engineering) are available of 2014

Subject Name : Principles of Electrical Engineering

ET-115 PRINCIPLES OF ELECTRICAL ENGINEERING PRACTICAL MANUAL OF Diploma of Associate Engineer Civil Technology 11 Principles of Electrical Engineering PRACTICAL MANUAL OF. Practical Manual of ET-115 NATIONAL BOOK FOUNDATION ISLAMABAD TECHNICAL EDUCATION & VOCATIONAL TRAINING AUTHORITY. ET 121 Basic Electrical Drawing; ET 115 Principles of Electrical Engineering; Comp 122 Computer Applications; Ch 132 Applied Chemistry; Math 113 Applied Mathematics-I; Eng 112 English; Gen 111 Islamiat/Pakistan Studies.

Code : ET. 115

Level : First Year

Paper “B” and Part B

For Category : Electrical Technology (ET)

Board : PBTE – Punjab Board of Technical Education

Year of Exam / Paper Release : 2014

Medium : English and Urdu both medium Papers are given below

Page No. 1

Page No. 2

Total Marks are 60 and it has two parts, first one is objective short answers and 2nd one is long answers.

This paper is for all students of diploma level first year. It is also helpful for those students who are preparing for upcoming supplementary examination. This is Old paper of annual exam held in June 214. The subject of Electrical wiring and ET Engineering is consider tough specially when you are new and it is obviously first year so make sure you get help from our notes and given guess / model papers. Please share this post with your class fellows and comment below if you need any help. Take care.

Principle Of Electrical Engineering Et 115 Pdf

1.4 Principles of Sustainable Engineering

'Engineering in context, engineering with a conscience, engineering for a finite planet and the indefinite future'
-Benoit Cushman-Roisin

Sustainable engineering should be based on principles that support sustainable development, as defined in the upper sections of this lesson. Engineering forms an interface between the design (i.e., the idea how to provide a sustainable solution to a technical problem) and implementation and production. In case of technology development, engineering phase is linked to almost every level of technology readiness spectrum. Sustainable engineering principles should be contemplated and applied early to ensure that technology development and scale-up follow the environmentally benign route. It will be hard to turn back to redo and redesign things from later stages! In that sense, the sustainable engineering principles should be taken into account in decision making for both research and industrial projects as well as in policy making and decisions regarding funding of technological research.

There have been multiple attempts by academic and industrial institutions to formulate sustainable engineering principles. All of them fall within the triangle with Environmental, Social, and Economic values as cornerstones. The overarching goal is to generate a balanced solution to any engineering problem. If an engineering project benefits one of these three aspects but ignores the others, we have a lopsided system which creates tension, instability, and new problems in the long run.

Here are some of the aspects that differentiate the traditional and sustainable approaches in engineering:

Traditional EngineeringSustainable Engineering
Sustainability Approaches in Engineering
Considers the object or processConsiders the whole system in which the object or process will be used
Focuses on technical issuesConsiders both technical and non-technical issues synergistically
Solves the immediate problemStrives to solve the problem for infinite future (forever?)
Considers the local contextConsiders the global context
Assumes others will deal with political, ethical, and societal issuesAcknowledges the need to interact the experts in other disciplines related to the problem

The diagram in Figure 1.3. presents a consolidated framework for sustainable engineering principles, which are in part adopted from the work of Gagnon and co-authors 'Sustainable development in engineering: a review of principles and definition of a conceptual framework' (2008) and from the green engineering principles established by Sundestin Conference (2003).

Figure 1.3. Classification of sustainable engineering principles versus environmental, social, and economic criteria. Click on image to see a full version.
Click for text description. This will expand to provide more information.

Figure 1.3 text description

Various principles of sustainable engineering are placed on the perimeter of the triagle. On the trangle's bottom edge are the Society pole (left) and the Economy pole (right). From left to right, the four principles shown are as follows:

  • Offer individuals and communities the opportunity to increase their capabilities.
  • Know your 'needs' and 'wants.' Put primary focus on achieving needs of larger number of individuals.
  • Allocate in a fair manner benefits and costs related to economic activity and public policies.
  • Maintain a positive genuine long term investment considering all types of capital.

On the triangle's left edge are the Society pole (bottom) and the Environment pole (top). From bottom to top, the four principles shown are as follows:

  • Ensure that all material and energy inputs and outputs are as inherently safe and benign as possible.
  • Look beyond your own locality and the immediate future.
  • Preserve access to exosystems services essential to health and wellbeing.
  • Preserve biodiversity and respect all life forms regardless of how useful they are to humankind.

On the triangle's right edge are the Environment pole (top) and the Economy pole (bottom). From top to bottom, the four principles shown are as follows:

  • Stay within ecosystem's carrying capacity in terms of resource development and waste assimilation.
  • Develop closed cycles of operation and consumption to minimize waste.
  • Offset the use of non-renewable resources by investments in renewable substitutes.
  • Stimulate innovation to facilitate the adaption of more efficient and greener technologies.

The principles shown at the center of the triangle are as follows:

  • Engineering processes holistically, use system analysis, and integrate invironmental impact assessment tools.
  • Seek stakeholder involvement while respecting local subsidiarity and cultures.
  • Internalize all costs within the value of goods and services (polluters must pay).
Credit: based on concepts from Gagnon et al., 2008

Figure 1.3 lists the various principles of sustainable engineering versus environmental, social, and economic poles. Some of these principles clearly gravitate towards one of the corners of this triangle and thus address particularly societal, environmental, or economic concern. But some others, which are placed along the sides of the triangle, have connections to two of the poles of the diagram and address both societal and economic, or both economic and environmental concerns in some proportion. Those principles placed in the center of the diagram combine all three aspects of sustainability to a certain degree and hence their implementation would benefit all societal, environmental, and economic stakeholders. We should not consider this collection of principles set in stone. Many sources and organizations build on the existing documents and provide their own visions. I invite you to reflect on this diagram and provide your comments for making it more complete and more concrete for our future consideration.

These principles can be viewed as guidelines for a specific engineering project. We are going to look at a specific example where the engineering solution was able to address the need and benefit sustainability, not sacrificing one for the other.

Jubilee River Case Study

Reading assignment

Venables, R., Civil Engineering - Jubilee River, in Engineering for Sustainable Development: Guiding Principles, Royal Academy of Engineering, Dodds, R., and Venables, R., Eds., 2005. pp. 11-14.

Note: I ask you to read the case study on pages 12-14 only! After that please answer the self-check questions below.

This example presents a success story about how sustainable engineering has been applied to address a critical community need. The need is always placed in the center of an engineering project and directs design efforts. In this case, the need was a flood prevention system. While the traditional approach of creating the concrete trapezoidal channel would address the need perfectly and cost-effectively, it would have environmental and social trade-offs. For example, construction would destroy or disturb natural vegetation and wildlife, cause high soil erosion, create a large amount of construction waste, and have a negative aesthetic impact.

Principle of electrical engineering et 115 pdf free

The alternative approach was to convert these problematic trade-offs into benefits. That required some additional investment and a wider range of collaboration among civil engineers, ecologists, and landscape architects. The result was creation of a permanent, landscaped, ecologically compatible relief channel, with amenities and environmental features of a natural river (Figure 1.5), which eventually became an asset to the community and increased rather than decreased the quality of life.

Figure 1.4. Current state of the Jubilee River landscape.

To summarize the information in this reading, please provide answers to the following questions:

Self-check questions:

1. What was the key to making the Jubilee River channel stable under high flow conditions?

Click for answer.

ANSWER:
Established vegetation (e.g. shrubs, trees) was necessary to fix the banks and to avoid excessive erosion.

2. What sustainable construction measures were implemented in the project?

Click for answer.

ANSWER:
First, the routes for removal of excavation waste were established prior to the construction; second, the excavated gravel and soil were used for landscaping along the river banks.

3. What technology was used to plan and control excavation works and to prevent over-digging?

Click for answer.

ANSWER:
Geographic positioning system (GPS) was used for careful planning and for optimizing the position and depth of excavation.

4. What were the key benefits of the Jubilee River project?

Click for answer.

ANSWER:

(a) flood prevention (main need);

(b) better quality of life;

(c) maintained wildlife environment;

Principle Of Electrical Engineering Et 115 Pdf Download

(d) protected land and soils;

Principle Of Electrical Engineering Et 115 Pdf Download

(e) wise use of natural resources.

The goal of an engineering project can be to create a system, a device, a process, or any other outcome that would provide a certain service or benefit to society. One of the important outcomes of an engineering project is the creation of technology.

Role of Technology

Role of technology can be actually viewed as the interface that provides connection of an idea realized through design and engineering effort with practical and consumable outcomes, such as products or services. The latter would affect and shape societal lifestyle over time. Figure 1.4 presents a hierarchical view of these connections in the sustainability context.

Figure 1.5. Hierarchy of sustainability guidelines and role of technologies emphasized.

Figure 1.5 shows how the most general sustainability principles are narrowed down to specific material outcomes for the society. The principles of sustainability guide the sustainable design, the process of thinking. This stage determines how things are supposed to be made and how they will function over their whole lifecycle. Further down the funnel, the sustainable engineering stage deals with technical implementation of ideas. Sometimes it is not an easy process, and some aspects of design may be changed or compromised. When eventually the design and engineering routes practically converge, we may have a technology created. Technology provides processes and products. Only then the benefits of new ideas and new engineering developments become available to society. Here we can identify the role of technology as some sort of portal through which the established principles of sustainable design and engineering may affect people’s lifestyle. Because of people's strong dependence on multiple technologies, those become the factors that can facilitate change in society and can even become tools of manipulation and initiation of global trends.

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This way of thinking emphasizes the importance of technologies in the whole hierarchy of causes and factors that regulate the sustainable development.

Supplemental Reading

Electrical Engineering Jobs

Engineering for Sustainable Development: Guiding Principles, Royal Academy of Engineering, Dodds, R., and Venables, R., Eds., 2005.

This additional reading on this section provides you with some examples of sustainable engineering projects. These demonstrate the wide application of sustainable engineering thinking in such spheres as water management, chemical industry, and electronics.

Principle Of Electrical Engineering Et 115 Pdf Online

Gagnon, B., Leduc, R., and Savard, L., Sustainable development in engineering: a review of principles and definition of a conceptual framework. Cahier de recherche / Working Paper 08-18, 2008.

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