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فهرست محتوای دیجیتالی
فهرست مطالب
فهرست نقدها
423 مرتبه مشاهده شده
ارزیابی توسعه پایدار سیستم های انرژی ساختمان های مسکونی با درنظرگرفتن جنبه های محیط زیستی، اقتصادی و اجتماعی
علی قنبری، محمد حسین Ali Ghanbari, Mohammad Hossein
- شماره پایان نامه:50511
- کد دانشکده:66
- پديدآور: علی قنبری، محمد حسین
- عنوان:ارزیابی توسعه پایدار سیستم های انرژی ساختمان های مسکونی با درنظرگرفتن جنبه های محیط زیستی، اقتصادی و اجتماعی.
- نام دانشگاه/پژوهشگاه:صنعتی شریف
- سال اخذ مدرك:1396.
- نام دانشکده:مهندسی و علوم
- مقطع:کارشناسی ارشد
- گرایش:مهندسی عمران - محیط زیست
- توصیف ظاهری:116ص.: جدول، نمودار، کتابنامه؛ چکیده به فارسی و انگلیسی
- یادداشت:متن به انگلیسی
- توصیفگر: ساختمان های مسکونی Residential Buildings
- توصیفگر: انرژی Energy
- توصیفگر: کارایی Efficiency
- توصیفگر: محیط زیست Environment
- توصیفگر: توسعه پایدار Sustainable Development
- توصیفگر: ارزیابی پایداری Sustainability Assessment
- توصیفگر: ارزیابی اقتصادی Economic Evaluation
- استاد راهنما. ابریشم چی، احمد
-
محتواي کتاب
- مشاهده
- Final - Copy - Copy - Copy.pdf
- List of figures
- List of tables
- Introduction
- 1. Chapter One
- 1.1 Review of the Current State of Energy in Iran
- 1.2 Global temperature rise
- 1.3 Energy generation in the future
- 1.4 The energy consumption of Iran and world and dependence on fossil fuels
- 1.5 Population growth and its impact on energy consumption
- 2. Chapter two
- 2.1 Solar energy
- 2.2 Types of solar electrical generation
- 2.3 The direct method (photovoltaic systems)
- 2.4 The need for using photovoltaic systems
- 2.5 The main component of photovoltaic systems
- 2.5.1 Solar Modules
- 2.5.2 Intermediate
- 2.5.3 Charge control
- 2.5.4 Inverter
- 2.5.5 Battery
- 2.5.6 Consumer
- 2.6 Indirect method (solar thermal)
- 2.7 Linear parabolic power plants
- 2.8 Central receiver power plants (Heliostat)
- 2.9 The main components of the central receiver power plants are described below:
- 2.9.1 Heliostat
- 2.9.2 Mirror
- 2.9.3 Structures
- 2.9.4 Foundation
- 2.9.5 Actuator system
- 2.9.6 Solar Controller System
- 2.9.7 Central receiver
- 2.9.8 Heat energy transfer system
- 2.10 Parabolic dish power plant
- 2.11 The main components of parabolic dish power plant are as follows:
- 2.11.1 Concentrator surface
- 2.11.2 Sterling engine
- 2.11.3 Tracer
- 2.11.3.1 Following elevation angle
- 2.11.3.2 Following Arctic
- 2.11.4 Control System
- 2.11.5 Structures and foundations
- 2.11.6 Cooling system
- 2.11.7 Recipient
- 2.12 Recipient with direct light
- 2.13 Indirect recipient
- 2.14 Solar chimney (Tower)
- 2.14.1 The performance of thermal solar chimney power plants
- 2.14.2 The main components of a solar chimney
- 2.15 Fresnel collectors
- 2.16 The Performance of these solar power plants may be used in two ways:
- 2.16.1 Conventional system
- 2.16.2 Direct steam system
- 2.17 History
- 2.18 Solar Cells
- 2.19 Basis of solar cells
- 2.20 The first generation of technology
- 2.21 The second generation of technology
- 2.22 Crystalline silicon
- 2.23 Monocrystalline cells (single crystal)
- 2.24 Polycrystalline cells (multi-crystalline)
- 2.25 Thin-film cells
- 2.26 Amorphous silicon cells
- 2.27 Copper indium di selenide cells (CIGS/CIS)
- 2.28 Cadmium Telluride Cells (CdTe)
- 2.29 Emerging Technology
- 2.30 Dye-sensitized solar cells
- 2.31 Organic solar cells
- 2.32 Multi-Hybrid solar cells
- 2.33 Concentrator cells
- 2.34 The efficiency of solar cells
- 2.35 Producer countries
- 2.36 Producers of crystalline cells
- 2.37 New evolution in the design of photovoltaic panels
- 2.38 Types of using photovoltaic system
- 2.38.1 Off-grid systems
- 2.38.2 Grid-connected systems
- 2.38.3 Hybrid-feeding systems
- 2.39 Selecting the equipment of the Photovoltaic system
- 2.39.1 Module
- 2.39.2Inverter
- 3. Chapter three
- 3.1 Decentralized
- 3.2 Portability
- 3.3 Storage capability
- 3.4 Reducing the losses of the network
- 3.5 Contribute to self-sufficiency and reducing dependences
- 3.6 Reducing greenhouse gases emissions and air pollution
- 3.7 Export and sale of energy
- 4. Chapter four
- 4.1 Factors affecting the amount of radiation received from the sun
- 4.1.1 A geometric factor
- 4.1.2 Astronomical factors
- 4.1.3 Climate factors
- 4.1.4 Geographical factors
- 4.1.5 Physical factors
- 4.2 Solar radiation maps design methods
- 4.3 Solar radiation qualification examination at different parts of Iran
- 4.4 Geographic location of Iran
- 4.5 General solar radiation circumstances in Iran
- 4.6 Radiation status in cities of Iran
- 4.6.1 Radiation status in Yazd
- 4.6.2 Radiation situation in Golestan city
- 4.6.3 Radiation situation in Khorasan Razavi
- 4.6.4 Radiation situation in South Khorasan city
- 4.6.5 Radiation Situation in Alborz Province
- 4.6.6Radiation situation in Semnan city
- 4.6.7Radiation situation in Isfahan city
- 4.6.8 Radiation situation in Kerman city
- 4.6.9Radiation situation in Khuzestan city
- 4.6.10Radiation situation Sistan and Balichestan city
- 4.7 Status check of solar radiation in Germany
- 4.8 Compare the Radiation and Solar Power Generation in Iran and Turkey
- 4.1 Factors affecting the amount of radiation received from the sun
- Chapter five
- 5.1 The cost estimation for installing the solar power generators in the building
- 5.2 The method of calculating the electricity bill of a sample subscriber with the tariff of 2016 (60-day period)
- 5.3 Calculating the costs of a photovoltaic system for a residential building in Alborz Province
- 5.3.1 The first strategy: using off-grid solar panels for household loads
- 5.3.2 The second strategy: the use of grid-connected solar panels for selling to the grid
- 5.3.3 The third strategy: the use of grid-connected solar panels for selling to the grid and internal consumption
- 5.4 A look at implementing the plan of solar power system in an office-residential building in Alborz Province
- Chapter six
- References
- چکیده
- چکیده
- 4_5823660239567716465 - eslahe arm