Analyzed, optimized, and prototyped design patented by Dr. Gecheng Zha of a carbon fiber VAWT; unique in its usage of a concentric outer ring of fixed stator blades which direct and accelerate airflow. Achieved optimized turbine efficiency of 22.25% (a 57.15% increase over base-model efficiency).
Advisor: Dr. Gecheng Zha.
Numerical analysis of Vertical Axis Wind Turbinehasan47
This document summarizes a numerical analysis of a vertical axis wind turbine conducted by researchers at Khulna University of Engineering & Technology in Bangladesh. The researchers used computational fluid dynamics to model the turbine and analyze performance parameters. They generated a mesh model of the turbine blades and airfoil and simulated rotation using a sliding mesh technique. The analysis found that the turbine achieved an optimal power coefficient of 0.34 at a tip speed ratio of 4.5. The results of the numerical study could help with practical implementation of vertical axis wind turbines.
The document discusses vertical axis wind turbines (VAWT) as an option for generating renewable wind energy. It provides details on VAWT advantages over traditional horizontal axis turbines, including that they can be installed at ground level and operate in winds from any direction. Multiple VAWT models are described ranging from 500W to 20,000W capacity that are suitable for residential or commercial use.
Analyzed, optimized, and prototyped design patented by Dr. Gecheng Zha of a carbon fiber VAWT; unique in its usage of a concentric outer ring of fixed stator blades which direct and accelerate airflow. Achieved optimized turbine efficiency of 22.25% (a 57.15% increase over base-model efficiency).
Advisor: Dr. Gecheng Zha.
Numerical analysis of Vertical Axis Wind Turbinehasan47
This document summarizes a numerical analysis of a vertical axis wind turbine conducted by researchers at Khulna University of Engineering & Technology in Bangladesh. The researchers used computational fluid dynamics to model the turbine and analyze performance parameters. They generated a mesh model of the turbine blades and airfoil and simulated rotation using a sliding mesh technique. The analysis found that the turbine achieved an optimal power coefficient of 0.34 at a tip speed ratio of 4.5. The results of the numerical study could help with practical implementation of vertical axis wind turbines.
The document discusses vertical axis wind turbines (VAWT) as an option for generating renewable wind energy. It provides details on VAWT advantages over traditional horizontal axis turbines, including that they can be installed at ground level and operate in winds from any direction. Multiple VAWT models are described ranging from 500W to 20,000W capacity that are suitable for residential or commercial use.
Typmarvn_Vertical and Herizontal Axis Wind TurbineThai Minh Dan
TYPMAR presented a proposal for a hybrid wind and solar street light system. They discussed how their vertical axis wind turbine, called a Maglev wind turbine, has several advantages over traditional horizontal axis wind turbines, such as being able to generate power starting at very low wind speeds, having no mechanical components so it is quieter and lower maintenance, and having lightning protection built into its design. They proposed installing their Maglev wind turbines combined with solar panels on street lights to provide a green energy solution for powering public lighting. The presentation provided details on their wind turbine and company, as well as examples of their products being used for applications like street lighting and on ships.
This document describes a student project to design and build a vertical axis wind turbine (VAWT). It provides background on wind energy and different types of wind turbines. It then details the design and construction process for the VAWT, including conceptual designs, fabrication of blades and supports, and testing specifications. The summary concludes that VAWTs provide an efficient and low-cost way to harness wind power for small-scale energy production.
Renewable energy is generally electricity supplied from sources, such as wind power, solar power,
geothermal energy, hydro power and various forms of biomass. The popularity of renewable energy
has experienced a significant upsurge in recent times due to the exhaustion of conventional power
generation methods and increasing realization of its adverse effects on the environment. Wind energy
has been harnessed for centuries but it has only emerged as a major part of our energy solution quite
recently and this report focus on utilizing wind energy by using vertical axis wind turbine.
Wind turbines convert the kinetic energy of wind into mechanical or electrical energy. They consist of a tower, nacelle, rotor blades, generator, and other components. When wind blows, the rotor blades spin a shaft connecting to a generator inside the nacelle to produce electricity. Wind turbines require a minimum wind speed of 10-15 kph to function and automatically stop at 90 kph for safety. They come in both onshore and offshore varieties, with offshore turbines able to generate more electricity due to more regular winds but being more expensive to install and maintain.
This presentation summarizes the design and operation of a vertical axis wind turbine (VAWT) created by a group of students to generate 10 watts of DC power from wind. Key points include:
1) The VAWT was designed to operate efficiently in urban and suburban areas and does not need to be oriented into the wind.
2) It works at lower wind speeds than a horizontal axis turbine and can place the generator at ground level for easy access and maintenance.
3) The presentation outlines the turbine components, measurement of wind speed, advantages of VAWTs such as being omni-directional and producing less stress on support structures, and concludes with potential future improvements.
Wind turbines convert the kinetic energy of wind into mechanical or electrical energy. Modern wind turbines are much more efficient than older designs, able to generate 250-300 kilowatts compared to older models generating around 30 kilowatts. Wind turbines work by using wind to turn blades which spin a shaft connected to a generator, producing electricity. They are mounted on towers to access stronger winds higher off the ground. While wind energy has advantages like being renewable and producing no emissions, it also has disadvantages like dependence on wind conditions and higher initial costs than some other energy sources.
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Green Mind is a Lebanese non-profit founded in 2012 primarily by women seeking to promote sustainable practices. Led by a woman, Green Mind hopes to inspire other women to take on environmental challenges. It recognizes leadership in sustainability through various awards and organizes projects in areas like education, energy, water, transport, and waste. Green Mind also created mobile apps like GreenMiles for carpooling and one for reforestation efforts to promote environmental causes through technology.
Many initiatives are currently blossoming across the region facilitating a stronger engagement of females in clean energy.
Salma El Shiekh, The Sudanese Artik Energy Start up founder shared her journey at Sustainable Energy Field: A Step towards Sustainable Communities - Workshop on the side of International Beirut Energy Forum on 25 September 2019.
Many initiatives are currently blossoming across the region facilitating a stronger engagement of females in clean energy.
Eng. Zainab Garashi, Founder & CEO, Engineers without Boarders- Kuwait presented EWB projects at Sustainable Energy Field: A Step towards Sustainable Communities - Workshop on the side of International Beirut Energy Forum on 25 September 2019.
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International Beirut Energy Forum on 25 September 2019.
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International Beirut Energy Forum on 25 September 2019.
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International Beirut Energy Forum on 25 September 2019.
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Typmarvn_Vertical and Herizontal Axis Wind TurbineThai Minh Dan
TYPMAR presented a proposal for a hybrid wind and solar street light system. They discussed how their vertical axis wind turbine, called a Maglev wind turbine, has several advantages over traditional horizontal axis wind turbines, such as being able to generate power starting at very low wind speeds, having no mechanical components so it is quieter and lower maintenance, and having lightning protection built into its design. They proposed installing their Maglev wind turbines combined with solar panels on street lights to provide a green energy solution for powering public lighting. The presentation provided details on their wind turbine and company, as well as examples of their products being used for applications like street lighting and on ships.
This document describes a student project to design and build a vertical axis wind turbine (VAWT). It provides background on wind energy and different types of wind turbines. It then details the design and construction process for the VAWT, including conceptual designs, fabrication of blades and supports, and testing specifications. The summary concludes that VAWTs provide an efficient and low-cost way to harness wind power for small-scale energy production.
Renewable energy is generally electricity supplied from sources, such as wind power, solar power,
geothermal energy, hydro power and various forms of biomass. The popularity of renewable energy
has experienced a significant upsurge in recent times due to the exhaustion of conventional power
generation methods and increasing realization of its adverse effects on the environment. Wind energy
has been harnessed for centuries but it has only emerged as a major part of our energy solution quite
recently and this report focus on utilizing wind energy by using vertical axis wind turbine.
Wind turbines convert the kinetic energy of wind into mechanical or electrical energy. They consist of a tower, nacelle, rotor blades, generator, and other components. When wind blows, the rotor blades spin a shaft connecting to a generator inside the nacelle to produce electricity. Wind turbines require a minimum wind speed of 10-15 kph to function and automatically stop at 90 kph for safety. They come in both onshore and offshore varieties, with offshore turbines able to generate more electricity due to more regular winds but being more expensive to install and maintain.
This presentation summarizes the design and operation of a vertical axis wind turbine (VAWT) created by a group of students to generate 10 watts of DC power from wind. Key points include:
1) The VAWT was designed to operate efficiently in urban and suburban areas and does not need to be oriented into the wind.
2) It works at lower wind speeds than a horizontal axis turbine and can place the generator at ground level for easy access and maintenance.
3) The presentation outlines the turbine components, measurement of wind speed, advantages of VAWTs such as being omni-directional and producing less stress on support structures, and concludes with potential future improvements.
Wind turbines convert the kinetic energy of wind into mechanical or electrical energy. Modern wind turbines are much more efficient than older designs, able to generate 250-300 kilowatts compared to older models generating around 30 kilowatts. Wind turbines work by using wind to turn blades which spin a shaft connected to a generator, producing electricity. They are mounted on towers to access stronger winds higher off the ground. While wind energy has advantages like being renewable and producing no emissions, it also has disadvantages like dependence on wind conditions and higher initial costs than some other energy sources.
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Women play an important role in the clean energy sector but face challenges. Case studies from Yemen, Lebanon, the UAE, and Palestine show successful women entrepreneurs and leaders in solar energy. However, women face barriers to securing funding, building partnerships, and educating stakeholders. Actions to address the gender gap include strengthening international cooperation, providing targeted funding, improving access to networks, and supportive policies to promote gender equality in clean energy.
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Ms. Patil Mesrobian, Program Development Officer, LCEC presentation at Sustainable Energy Field: A Step towards Sustainable Communities - Workshop on the side of International Beirut Energy Forum on 25 September 2019.
Green Mind is a Lebanese non-profit founded in 2012 primarily by women seeking to promote sustainable practices. Led by a woman, Green Mind hopes to inspire other women to take on environmental challenges. It recognizes leadership in sustainability through various awards and organizes projects in areas like education, energy, water, transport, and waste. Green Mind also created mobile apps like GreenMiles for carpooling and one for reforestation efforts to promote environmental causes through technology.
Many initiatives are currently blossoming across the region facilitating a stronger engagement of females in clean energy.
Salma El Shiekh, The Sudanese Artik Energy Start up founder shared her journey at Sustainable Energy Field: A Step towards Sustainable Communities - Workshop on the side of International Beirut Energy Forum on 25 September 2019.
Many initiatives are currently blossoming across the region facilitating a stronger engagement of females in clean energy.
Eng. Zainab Garashi, Founder & CEO, Engineers without Boarders- Kuwait presented EWB projects at Sustainable Energy Field: A Step towards Sustainable Communities - Workshop on the side of International Beirut Energy Forum on 25 September 2019.
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Eng. Lina AL-Mubaideen presented JREEEF programs and Initiatives in Sustainable Energy Field: A Step towards Sustainable Communities - Workshop on the side of International Beirut Energy Forum on 25 September 2019.
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International Beirut Energy Forum on 25 September 2019.
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International Beirut Energy Forum on 25 September 2019.
These are the key messages of the first High Level Policy Dialogue to promote RE and EE in the Mediterranean region. The messages were delivered by Dr. Badr
The presentation is prepared as an introduction for the first High Level Policy Dialogue to promote RE and EE in the Mediterranean region by Eng. Kraidy
EU-Egypt Energy Cooperation: A successful modelRCREEE
This document discusses EU-Egypt energy cooperation and outlines key energy challenges in Egypt. It summarizes achievements in EU-Egypt energy cooperation including projects supporting renewable energy, energy efficiency, and regulatory capacity. It presents the Second Memorandum of Understanding between Egypt and EU for 2018-2022 focusing on gas and electricity sector reforms, renewable energy projects, and technological cooperation. The European Investment Plan is introduced as a three-pillar structure to mobilize investment through technical assistance, improved investment climate, and financing from the European Fund for Sustainable Development. Potential energy investment projects are listed in renewable energy, energy efficiency, and grid infrastructure totaling over 1.7 billion Euros.
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5. 1. تطوير أنشطة البحث عن المحروقات
2. وضع برامج للتحكم في الطاقة
3. النهوض بالطاقات المتجددة
4. تطوير استغالل الغاز الطبيعي في السكن والخدمات والصناعة
5. تنويع مصادر الطاقة توفير األمن الطاقي للبالد
6. التخفيض من اإلنبعاثات الغازية والمحافظة على البيئة
5
7. طاقة الرياح واإلطار التشريعي؟ (1)
إنتاج الكهرباء من الطاقات المتجددة
تمتٌع المإسسات والمجامع والخواص الذٌن ٌنتجون الكهرباء من
الطاقات المتجددة لؽرض االستهالك الذاتً بـحق:
1. نقل الكهرباء المنتجة عبر الشبكة إلى مراكز االستهالك.
2. بٌع الفوائض إلى الشركة التونسٌة للكهرباء والؽاز فً حدود
03%.
8. طاقة الرياح واإلطار التشريعي؟ (2)
أسعار شراء الفوائض
* المإسسات المرتبطة بالجهدٌن العالً والمتوسط:
السعر = سعر الطاقة بالتعرٌفة العامة للتٌار الكهربائً ذي الجهد العالً.
* المإسسات المرتبطة بالجهد المنخفض:
تفوتر ش.ت.ك.غ الفارق بٌن الطاقة المسلمة والطاقة المستلمة وفً حالة
وجود فارق فإنه ٌرجؤ إلى الفوترة الالحقة.
9. إسداء منح مالية من الصندوق الوطني للتحكم في الطاقة:
قيمة المنح : 07% من كلفة الدراسات و04% من مبلغ االستثمار بالنسبة إلنتاج
الكهرباء في القطاع الفالحي من طاقة الرياح أو الطاقة الهجينة (طاقة الرياح + الطاقة
الفولطاضوئية).
اإلعفاءات الجبائية:
األداءات الديوانية.
األداء على القيمة المضافة.
الضريبة على المداخيل.
منح األراضي المخصصة للمشاريع ذات األهمية (االستثمار والتشغيل)
بقيمة رمزية.
12. طاقة الرياح (1): أطلس الرياح
1. خصائص مالئمة (س<7 م/ث على ارتفاع
06م) بمناطق:
- الشمال والشمال الشرقً: بنزرت ونابل.
- الوسط: القصرٌن.
- الجنوب: تطاوٌن ومدنٌن وقابس.
2. مواقع ممتازة بنفس المناطق (س<8 م/ث
على ارتفاع 06م).
3. مواقع أخرى مهمة (س<5.6 م/ث على
ارتفاع 06م) بـ :
- شرق والٌات توزر ووقبلً وتطاوٌن.
- المنستٌر.
13. محطة إنتاج الكهرباء بطاقة الرياح بسيدي داود
محطة سيدي
داود
. منزل تميم
14. محطة سيدي داود: المرحلة األولى
القدرة المركسة: 5.01 ميغبواط -
عدد المراوح المركسة: 23 مروحت بقدرة 033 كيلواط -
طبقت اإلنتبج السنويت: أكثر من 52 جيغبواط سبعت -
بدايت التشغيل: أوث 0002 -
15. محطة سيدي داود: المرحلةالثانية
- القدرة المركسة: 7.8 ميغبواط
- عدد المراوح المركسة: 21 مروحت (01 مراوح من فئت 066 كيلواط
+ مروحت من فئت 008 كيلواط + مروحت من فئت 0231 كيلواط)
- طبقت اإلنتبج السنويت: أكثر من 02 جيغبواط سبعت
- بدايت التشغيل: سبتمبر 3002
16. محطة سيدي داود: المرحلةالثالثة
- القدرة المركسة: حوالي 43 ميغبواط
- عدد المراوح المركسة: 62 مروحت من فئت 0231 كيلواط
- بدايت التشغيل:9002
القدرة الجمليت المركسة : حوالي 45 ميغبواط.
33. األهداف:
تخفيض طلب الطاقة بـ 02% في سنة 1102.
الطاقات المتجددة:
1102 7002
4% 1% دون اعتبار الكتل الحٌوٌة والكهرومائً
31% 21% باعتبار الكتل الحٌوٌة والكهرومائً
34. المشاريع الكبرى لطاقة الرياح
توسٌع محطة سٌدي داود بتركٌز 53 مٌؽاواط إضافٌة.
تركٌز محطة ببنزرت بقوة 021 مٌؽاواط.
تركٌز 06 مٌؽاواط من قبل المإسسات ذات االستهالك
الكبٌر للطاقة.
35. المشاريع الصغرى لطاقة الرياح
في القطاع الف الحي والوسط الريفي
- تجهٌز 36 بئر بمحطات لضخ وتحلٌة المٌاه.
- تركٌز 002 محطة لضخ المٌاه تشتؽل بالطاقة المزدوجة (الطاقة الشمسٌة
وطاقة الرٌاح).
- تنوٌر 000 1 مسكن رٌفً بالطاقات المتجددة المزدوجة.
- تنوٌر 001 ضٌعة فالحٌة ومشارٌع فالحٌة وسٌاحٌة.
40. الطاقة الشمسية (3)
المشارٌع 21 إلى 71 :
الطاقة الشمسٌة لإلنتاج المركزي الكهرباء :
إنشاء وحدات إلنتاج الكهرباء من الطاقة الشمسٌة المركزة بقدرة جملٌة تبلػ
001 مٌؽاواط.
إنشاء وحدة مزدوجة (ؼاز/طاقة شمسٌة مركزة) بقدرة 04 مٌؽاواط.
إنجاز وحدتٌن إلنتاج الكهرباء من الطاقة الشمسٌة الفولطاضوئٌة بقدرة 02
مٌؽاواط.
إنشاء مصنع إلنتاج الالقطات الفولطاضوئٌة بطاقة 41 مٌؽاواط سنوٌا.
41. إنتاج الكهرباء من طاق ة الري اح
المشارٌع 81 إلى 02:
60 مٌؽاواط من قبل المإسسات األكثر استهالكا للطاقة.
120 مٌؽاواط من قبل الشركة التونسٌة للكهرباء والؽاز.
100 مٌؽاواط من قبل الخواص.
42. مشاريع أخرى من الطاق ات المتجددة
- إنجاز الربط بخط بحري بٌن تونس وإٌطالٌا لتصدٌر الكهرباء (003
مٌؽاواط من الطاقات المتجددة).
- مشارٌع إنتاج الكهرباء من تثمٌن النفاٌات العضوٌة والؽاز الحٌوي
بالمصبات.
- مشارٌع نفطة الشمسٌة والقرٌة الشمسٌة البٌئٌة بجرجٌس.
43. الدراسات وهياكل المساندة
المشارٌع 53 إلى 04:
إعداد دراستٌن إستراتٌجٌتٌن:
- دراسة إحداث وحدات بقدرة 0002 مٌؽاواط من الطاقة الشمسٌة والرٌاح
بالجنوب التونسً.
- دراسة مصادر إنتاج الكهرباء فً تونس فً ؼضون 0302.
إحداث هٌاكل مساندة:
- مخبر ومركز دولً للتكوٌن فً مجال الطاقة الشمسٌة.
- إحداث شركة STEGللطاقات المتجددة.
- وحدة التصرؾ فً المخطط الشمسً التونسً.