Mongolian Transmission Grids Expansion Plan Energy Systems Engineering Program P.C. Rossin College of Engineering and Applied Science Lehigh University 2012 This research paper covers transmission development plan through gobi region of Mongolia. New customers Gobi regions 7 provinces electrical load forecast, MW 1800 1600 1400 1200 1000 150MW 800 600 50MW 60MW 400 40MW 200 24 MW 2025 2024 2023 2022 2021 2020 2019 2018 2017 2016 2015 2014 2012 2011 300MW 2013 0 Proposed versions of electricity supply 1. Ulaanbaatar- Mandalgobi- TavantolgoiOyutolgoi 220 кV OHL 2. Choir- Tsagaansuvarga-Oyutolgoi 220 кV OHL Gobisumber 3. Choir- Sainshand 220 кV OHL Sukhbaatar 4. Tsagaansuvarga-Sainshand 220 кV OHL 5. Sainshand-Zamiin-Uud 220 кV OHL Dornod 6. Baganuur-Undurkhaan-Choibalsan 220 кV OHL Khentii 7. Tavantolgoi- Dalanzadgad-Nariinsukhait 110 кV OHL Umnugobi 8. Ulaanbaatar- Mandalgobi-Tavantolgoi-Oyutolgoi 330 кV OHL 9. Baganuur-Undurkhaan-Choibalsan 110 кV OHL Dornogobi 10.Tavantolgoi-Dalanzadgad-Nariinsukhait 35 кV OHL Dundgobi 11.Ulaanbaatar-Mandalgobi-Oyutolgoi-Tavantolgoi 220 кV OHL 12. Sukhbaatar-Sainshand 110 кV OHL 13. Mandalgobi-Dalanzadgad-Tavantolgoi 220 кV OHL 14. Arvaikheer-Nariinsukhait 110 kV OHL 15. Arvaikheer-Mandalgobi 110 kV OHL Calculations No 1 2 3 4 5 6 7 Overhead transmission line Ulaanbaatar- Mandalgobi- Tavantolgoi- Oyutolgoi OHL Choir- Tsagaansuvarga-Oyutolgoi OHL Choir- Sainshand-Zamiin-Uud OHL Sainshand-Zamiin-Uud OHL Tsagaansuvarga-Sainshand OHL Baganuur-Undurkhaan-Choibalsan OHL Tavantolgoi- Dalanzadgad-NariinsukhaitOHL Final solution Voltage level 220 кV 220 кV 220 кV 220 кV 220 кV 220 кV 110 кV Conductor type ACSR-400 ACSR-400 ACSR-400 ACSR-240 ACSR-400 ACSR-240 ACSR-240 Russia REFERENCE — 220 кV Line Russia — 110 кV Line — 220 кV substation —110 кV substation Ó Â Ñ Emeelt Darkhan Erdenet Choibalsan No Substation 1 Tavantolgoi, Oyutolgoi and Sainshand substation Mandalgobi, Tsagaansuvarga, Zamiin-Uud, Baganuur, Undurkhaan and Choibalsan substation Dalanzadgad and Nariinsukhaitsubstation 2 3 Number of power transformer 2 Capacity of power transformer 125000 kVA 2 63000 kVA 2 16000 kVA Ulaanbaatar Baganuur Tamsag Khentii Bayanmunkh Baruun-Urt Choir Bor-Undur Airag Mandalgobi Single line diagram of power system analysis Sainshand Tsagaansuvarga Dalanzadgad Oyutolgoi Nariinsukhait Tsagaansuvarga ACSR-400 175 Tavantolgoi ACSR-240 98 km Zamiin-Uud Tavantolgoi China Oyutolgoi ACSR-400 135 220 kV China China ACSR-240 296 km China 110 kV 2*20 MVar 2*30 MVar 2*20 MVar ACSR-400 280 ACSR-400 160 ACSR-400 250 Nariin-Sukhait Shivee-Ovoo 300 MW Conclusion Dalanzadgad ACSR-400 90 6 MW Sainshand ACSR-400 230 3 MW ACSR-400 195 ACSR-240 177 Choir ACSR-400 260 ACSR-120 193,6 2*20 MVar 2*40 MVar 1*20 MVar 2*20 MVar Zamiin-Uud Mandalgobi ShiveeOvoo ACSR-240 178 Power plant #4 Airag Bor-Undur ACSR-400 202,8 Undurkhaan Russia Ulaanbaatar 2*20 MVar Baganuur Darkhan Erdenet ACSR-400 315 Choibalsan Tamsagbulag 6,6 MVar Power plant #3 Shin-Shen Erdenet PP The big new power consumers are coming in the gobi region of Mongolia in a next 5 – 10 years. For example, Oyutolgoi, Tavantolgoi, Tsagaansuvraga, Nariin-Sukhait and Maradai etc. mining companies, Sainshand industrial park and Zamiin-Uud economical free zone. Mongolia need to supply them electricity from central energy system. Thereat, new transmission lines and substations are required. My expansion plan will develop South-Eastern Gobi regions energy system. This energy system will improve the Mongolian economical development speed. Therefore, this research project can be a fundamental research of basis document for electrical supply of Mongolian energy systems. More circumstantial research needs during working drawing level of new power plants, lines and substations. 110 kV 220 kV EmeeltMainz 110 kV 35 kV Power plant #2 Dornod ES 10.6 kV Author: Sponsor: Mongolian Central Regional Electricity Transmision Grid State Owned-Stock Company Mentors: Tuvshinchuluun Erdenechuluun (CRETG) Martha C.Dodge (Lehigh University) Enkhtsetseg Munkhchuluun (CRETG) Batlkhagva Batsuren (Baku) Master of Engineering Energy System Engineering P.C. Rossin College of Engineering and Applied Science Lehigh University
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