Presentation theme: My speciality Checked by: Galiakberova a done by: Fozilov o induvidual Work
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Induvidual work 2
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Ministry of higher and secondary specialized Education of the republic of uzbekistan Ferghana polytechnic insitute Faculty of energetic Presentation theme: My speciality Checked by: Galiakberova A Done by: Fozilov O Induvidual Work Plan
My Specialty: Automation and control of production of technological processesWhat is a specialty? Specialization is a method of production in which the enterprise focuses on the production of limited goods in order to obtain a higher level of efficiency. For example, many countries specialize in the production of goods and services that are specific to their part of the world, which they exchange for other goods and services. Thus, this specialization forms the basis of world trade, as few countries have sufficient production capacity to be fully self-sufficient. MAIN PRODUCT Business specialization involves focusing on a single product or a limited product range to increase efficiency. Specialization can increase productivity and provide a comparative advantage for a firm or economy. Microeconomic specialization includes individual entities and economic components, while macroeconomic specialization includes the broad dominance of the economy in production. Understanding the specialty A specialization is an agreement within a team, organization, or large group in which each of the most appropriate members for a particular activity assumes responsibility for its successful completion. Microeconomic specialization Specialization can occur both at the microeconomic level and at the macroeconomic level. At the individual level, specialization usually takes the form of a career or labor specialization. For example, each member of an organization or economy has unique talents, abilities, skills, and interests that enable him or her to perform specific tasks. Labor specialization takes advantage of these unique talents and places people in areas where they achieve the best results, which helps both the individual and the economy as a whole. If, for example, one person excels in mathematics but is not a skilled writer, it will benefit both the individual and the team if he or she takes up a field that relies on mathematics. 5311000 - The field of education in the field of automation and management of technological processes and production is a field of education in the field of science and technology, which is the automation of technological processes in industries, design, commissioning of their control facilities and systems, sets of control tools aimed at ensuring the maintenance and operation of processes, systems for adjustment and management of technological facilities, as well as the principles of control and management designed for effective management of technological facilities. Objects of professional activity of bachelors: Technical systems, high-performance technological processes, apparatus and equipment and their control, adjustment and control systems, methods and means of their adjustment, operation and maintenance, as well as design documents for control, adjustment and management systems. As an energy engineer, you are involved in energy generation through natural resources, such as oil and gas extraction, as well as from renewable or sustainable energy sources, including biofuels, hydro, wind and solar energy. Your focus will be on finding efficient, clean and innovative ways to supply energy. You can work in a variety of roles, including: design and testing of equipment developing ways to improve existing processes to convert, transmit and deliver useful energy to meet our electricity needs study and development of methods for new energy generation, reduction of fossil fuel emissions and minimization of environmental damage. Responsibility As an energy engineer, you will need: design, development and construction of renewable energy technologies combining renewable energy production with existing energy systems arranging new supplies and agreeing tariffs with fuel suppliers site inspections and energy surveys design and selection of equipment use mathematical and computer models to perform design and specification calculations conducting laboratory experiments and adapting them to large-scale industrial processes preparation of detailed work schedules, feasibility studies and cost estimates check the location and ground conditions for the installation of renewable technologies, such as wind turbines negotiating service contracts and managing related costs and revenues liaise and negotiate with expert contractors, geologists and other relevant organizations be up to date with legislation and environmental standards and make sure systems and processes are compliant development of technical experience in all matters related to energy and environmental control. When it comes to energy conservation, energy management is the process of monitoring, controlling, and conserving energy in a building or organization. Typically, this involves the following steps: Measuring energy consumption and data collection. Finding energy saving opportunities and estimating how much energy each opportunity can save. You can usually analyze your meter data to find and quantify typical energy wastes, and you can also check for energy savings that you can save by replacing equipment (e.g., lighting) or upgrading building insulation. Take measures to focus on energy-saving opportunities (i.e., dealing with conventional waste and replacing or upgrading inefficient equipment). Usually you start with the best options first. Track your progress by analyzing meter data to see how effective your energy-saving efforts have been. (And then go back to step 2 and the cycle continues ...) To confuse the situation, many people are using “energy management” to address energy-saving efforts aimed at making better use of existing buildings and equipment. In short, this is limited to the behavioral aspects of energy saving (i.e., encouraging people to consume less energy by raising energy awareness), although the use of inexpensive control equipment such as timer switches is often included in the definition. The above four-step process applies in both ways - it’s entirely up to you to consider the energy-saving measures associated with purchasing new equipment or renovating building fabrics. It's not just about saving energy in buildings - the term "energy management" is used in other areas as well: Energy suppliers (or utility companies) do so so that their power plants and renewable energy sources produce enough energy to meet demand (the amount of energy consumers need). It is used to refer to personal energy level management and control techniques. We are far from qualified to talk more about it! It is also important in aviation - it is a skill that aircraft pilots learn in some form or shape. We know nothing about air power management, but at least we can control the image of the person on the plane ... The presentation is over. Thank you for your attention Download 306.88 Kb. Do'stlaringiz bilan baham: 
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