- Text
- History
IN Norway, the potential for large
IN Norway, the potential for large scale generation of wind
power is huge, but the impact of the wind generation on the
power system will no longer be negligible if high penetration
levels are going to be reached. The extent to which wind power
can be integrated into the power system without affecting the
overall stable operation depends on the technology available to
mitigate the possible negative impacts such as loss of generation
for frequency support, voltage flicker, voltage and power
variation due to the variable speed of the wind and the risk of
instability due to lower degree of controllability.
Many countries in Europe and other parts of the world are developing
or modifying interconnection rules and processes for
wind power through a grid code [1], [2]. The grid codes have
identified many potential adverse impacts of large scale integration
of wind resources. The risk of voltage collapse for lack of
reactive power support is one of the critical issues when it comes
to contingencies in the power system. Closely linked to this is
the low voltage ride through (LVRT) capability, which is one
of the most demanding requirements that have been included in
the grid codes. The LVRT requirement, although details are differing
from country to country, basically demands that the wind
farm remains connected to the grid for voltage dips as low as
5% retained voltage [3]. The Nordel grid codes have adopted
the LVRT profile shown in Fig. 1 for recommendation in the
Nordic region [4].
power is huge, but the impact of the wind generation on the
power system will no longer be negligible if high penetration
levels are going to be reached. The extent to which wind power
can be integrated into the power system without affecting the
overall stable operation depends on the technology available to
mitigate the possible negative impacts such as loss of generation
for frequency support, voltage flicker, voltage and power
variation due to the variable speed of the wind and the risk of
instability due to lower degree of controllability.
Many countries in Europe and other parts of the world are developing
or modifying interconnection rules and processes for
wind power through a grid code [1], [2]. The grid codes have
identified many potential adverse impacts of large scale integration
of wind resources. The risk of voltage collapse for lack of
reactive power support is one of the critical issues when it comes
to contingencies in the power system. Closely linked to this is
the low voltage ride through (LVRT) capability, which is one
of the most demanding requirements that have been included in
the grid codes. The LVRT requirement, although details are differing
from country to country, basically demands that the wind
farm remains connected to the grid for voltage dips as low as
5% retained voltage [3]. The Nordel grid codes have adopted
the LVRT profile shown in Fig. 1 for recommendation in the
Nordic region [4].
0/5000
ในนอร์เวย์ ศักยภาพในการสร้างลมขนาดใหญ่พลังงานเป็นอย่างมาก แต่ผลกระทบของการสร้างลมบนระบบไฟฟ้าจะไม่มีการเจาะระยะถ้าสูงระดับกำลังจะไปถึง ขอบเขตการใช้พลังงานลมที่สามารถรวมอยู่ในระบบไฟฟ้า โดยไม่มีผลกระทบต่อการการดำเนินงานที่มั่นคงขึ้นอยู่กับเทคโนโลยีที่ใช้โดยรวมบรรเทาผลกระทบด้านลบได้เช่นการสูญเสียของรุ่นสำหรับสนับสนุนความถี่ แรงดันไฟฟ้ากะพริบ แรงดันไฟฟ้า และพลังงานเปลี่ยนแปลงเนื่องจากตัวแปรความเร็วของลมและความเสี่ยงของความไม่แน่นอนเนื่องจากระดับล่างของ controllabilityกำลังพัฒนาหลายประเทศในยุโรปและส่วนอื่น ๆ ของโลกหรือปรับเปลี่ยนกฎการเชื่อมต่อและกระบวนการพลังงานลมโดยใช้ตารางรหัส [1], [2] มีรหัสตารางระบุผลกระทบร้ายเป็นจำนวนมากของรวมขนาดใหญ่ของทรัพยากรลม ความเสี่ยงของแรงยุบสำหรับ lack ของการสนับสนุนพลังงานปฏิกิริยาเป็นประเด็นสำคัญมาการ contingencies ในระบบไฟฟ้า เชื่อมโยงอย่างใกล้ชิดนี้เป็นแรงดันไฟฟ้าต่ำขี่ผ่านความสามารถ (LVRT) ซึ่งเป็นหนึ่งของความต้องการรวมไว้ในรหัสตาราง ความต้องการของ LVRT แม้ว่ารายละเอียดจะแตกต่างกันจากประเทศ โดยทั่วไปต้องที่ลมฟาร์มยังคงเชื่อมต่อกับกริดสำหรับหมักแรงดันต่ำสุด5% สะสมแรงดัน [3] มีนำรหัสกริด Nordelโพรไฟล์ LVRT แสดงใน Fig. 1 สำหรับคำแนะนำในการภูมิภาคที่นอร์ดิก [4]
Being translated, please wait..
IN Norway, the potential for large scale generation of wind
power is huge, but the impact of the wind generation on the
power system will no longer be negligible if high penetration
levels are going to be reached. The extent to which wind power
can be integrated into the power system without affecting the
overall stable operation depends on the technology available to
mitigate the possible negative impacts such as loss of generation
for frequency support, voltage flicker, voltage and power
variation due to the variable speed of the wind and the risk of
instability due to lower degree of controllability.
Many countries in Europe and other parts of the world are developing
or modifying interconnection rules and processes for
wind power through a grid code [1], [2]. The grid codes have
identified many potential adverse impacts of large scale integration
of wind resources. The risk of voltage collapse for lack of
reactive power support is one of the critical issues when it comes
to contingencies in the power system. Closely linked to this is
the low voltage ride through (LVRT) capability, which is one
of the most demanding requirements that have been included in
the grid codes. The LVRT requirement, although details are differing
from country to country, basically demands that the wind
farm remains connected to the grid for voltage dips as low as
5% retained voltage [3]. The Nordel grid codes have adopted
the LVRT profile shown in Fig. 1 for recommendation in the
Nordic region [4].
power is huge, but the impact of the wind generation on the
power system will no longer be negligible if high penetration
levels are going to be reached. The extent to which wind power
can be integrated into the power system without affecting the
overall stable operation depends on the technology available to
mitigate the possible negative impacts such as loss of generation
for frequency support, voltage flicker, voltage and power
variation due to the variable speed of the wind and the risk of
instability due to lower degree of controllability.
Many countries in Europe and other parts of the world are developing
or modifying interconnection rules and processes for
wind power through a grid code [1], [2]. The grid codes have
identified many potential adverse impacts of large scale integration
of wind resources. The risk of voltage collapse for lack of
reactive power support is one of the critical issues when it comes
to contingencies in the power system. Closely linked to this is
the low voltage ride through (LVRT) capability, which is one
of the most demanding requirements that have been included in
the grid codes. The LVRT requirement, although details are differing
from country to country, basically demands that the wind
farm remains connected to the grid for voltage dips as low as
5% retained voltage [3]. The Nordel grid codes have adopted
the LVRT profile shown in Fig. 1 for recommendation in the
Nordic region [4].
Being translated, please wait..
ในนอร์เวย์ มีศักยภาพในการผลิตขนาดใหญ่ของลม
พลังงานขนาดใหญ่ แต่ผลกระทบของลมรุ่นบน
ระบบไฟจะไม่กระจอก ถ้าระดับการเจาะ
สูงกำลังจะมาถึง ขอบเขตที่พลังงานลม
สามารถบูรณาการเข้าไปในระบบพลังงานโดยไม่มีผลต่อการดำเนินงานที่มั่นคง
โดยขึ้นอยู่กับเทคโนโลยีที่มี
mitigate the possible negative impacts such as loss of generation
for frequency support, voltage flicker, voltage and power
variation due to the variable speed of the wind and the risk of
instability due to lower degree of controllability.
Many countries in Europe and other parts of the world are developing
or modifying interconnection rules and processes for
wind power through a grid code [1], [2]. The grid codes have
identified many potential adverse impacts of large scale integration
of wind resources. The risk of voltage collapse for lack of
reactive power support is one of the critical issues when it comes
to contingencies in the power system. Closely linked to this is
the low voltage ride through (LVRT) capability, which is one
of the most demanding requirements that have been included in
the grid codes. The LVRT requirement, although details are differing
from country to country, basically demands that the wind
farm remains connected to the grid for voltage dips as low as
5% retained voltage [3]. The Nordel grid codes have adopted
the LVRT profile shown in Fig. 1 for recommendation in the
Nordic region [4].
พลังงานขนาดใหญ่ แต่ผลกระทบของลมรุ่นบน
ระบบไฟจะไม่กระจอก ถ้าระดับการเจาะ
สูงกำลังจะมาถึง ขอบเขตที่พลังงานลม
สามารถบูรณาการเข้าไปในระบบพลังงานโดยไม่มีผลต่อการดำเนินงานที่มั่นคง
โดยขึ้นอยู่กับเทคโนโลยีที่มี
mitigate the possible negative impacts such as loss of generation
for frequency support, voltage flicker, voltage and power
variation due to the variable speed of the wind and the risk of
instability due to lower degree of controllability.
Many countries in Europe and other parts of the world are developing
or modifying interconnection rules and processes for
wind power through a grid code [1], [2]. The grid codes have
identified many potential adverse impacts of large scale integration
of wind resources. The risk of voltage collapse for lack of
reactive power support is one of the critical issues when it comes
to contingencies in the power system. Closely linked to this is
the low voltage ride through (LVRT) capability, which is one
of the most demanding requirements that have been included in
the grid codes. The LVRT requirement, although details are differing
from country to country, basically demands that the wind
farm remains connected to the grid for voltage dips as low as
5% retained voltage [3]. The Nordel grid codes have adopted
the LVRT profile shown in Fig. 1 for recommendation in the
Nordic region [4].
Being translated, please wait..
Other languages
The translation tool support: Afrikaans, Albanian, Amharic, Arabic, Armenian, Azerbaijani, Basque, Belarusian, Bengali, Bosnian, Bulgarian, Catalan, Cebuano, Chichewa, Chinese, Chinese Traditional, Corsican, Croatian, Czech, Danish, Detect language, Dutch, English, Esperanto, Estonian, Filipino, Finnish, French, Frisian, Galician, Georgian, German, Greek, Gujarati, Haitian Creole, Hausa, Hawaiian, Hebrew, Hindi, Hmong, Hungarian, Icelandic, Igbo, Indonesian, Irish, Italian, Japanese, Javanese, Kannada, Kazakh, Khmer, Kinyarwanda, Klingon, Korean, Kurdish (Kurmanji), Kyrgyz, Lao, Latin, Latvian, Lithuanian, Luxembourgish, Macedonian, Malagasy, Malay, Malayalam, Maltese, Maori, Marathi, Mongolian, Myanmar (Burmese), Nepali, Norwegian, Odia (Oriya), Pashto, Persian, Polish, Portuguese, Punjabi, Romanian, Russian, Samoan, Scots Gaelic, Serbian, Sesotho, Shona, Sindhi, Sinhala, Slovak, Slovenian, Somali, Spanish, Sundanese, Swahili, Swedish, Tajik, Tamil, Tatar, Telugu, Thai, Turkish, Turkmen, Ukrainian, Urdu, Uyghur, Uzbek, Vietnamese, Welsh, Xhosa, Yiddish, Yoruba, Zulu, Language translation.
- จากประสบการณืที่ฉันเคยเจอ
- Biomarkers that indicatepotential health
- จากประสบการณ์ที่ฉันเคยเจอ
- ถึงโรงเรียน
- Biomarkers that indicatepotential health
- ความเชื่อมโยงในแต่ละอุตสาหกรรมมีระดับที่
- ทิศบูรพา
- I have gone whale watching at sea
- คติ
- commonly
- Or entries and use these funds for any o
- communism spreading from the USSR
- บูรพา
- ความหมายดี
- How can I make you happy love. And give
- ความหมายลึกซึ้ง
- การที่เราคุยกันทุกวันมันทำให้คุณกลายเป็น
- I have gone whale watching at the sea wi
- Gads ir gara dienu un nakšu virkne
- the rest of the managers felt they did n
- 係咪香港人阿
- ิWeathered and drawn from lifeEmbittered
- มันคงดี ถ้ากลับบ้านมาแลเวเจอคุณ
- ถ้าฉันได้มีโอกาส
