Haryana Power Purchase Centre seeks nod to procure 527MW RTC power om medium term basis #HERC #HPPC #elekoreenergy #power #shortterm #RTC
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The Central Govtt u/s 11 of the Electricity Act,2003 has issued directions for operationalisation of Gas Based power plants. Most of these are owned by the Central Govtt PSU i.e. NTPC (Anta,Auraiya,Dadri, Faridabad Gas etc.) Faridabad CCGT is little different as the project was set up entirely for Haryana and the fuel (RLNG) was to be made available on concessional APM . Since no APM gas was made available to FGPP it remain out of the merit order and hence stranded. Nonetheless, NTPC continued to get the Fixed Cost. Given the fact that Haryana will be buying short term/medium term power at an average cost in excess of Rs 7/kWh. Hence, to mitigate the anticipated pier shortage during May to September, FGPP ought to be allocated APM gas so that atleast during these months they generate at its full capacity and no extra burden of power purchase cost is passed on to the electricity consumers of Haryana.
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Electrical Design Engineer | KNX Certified partner | ALX | SEO Specialist | ABB trainee | Schneider trainee | IEEE Volunteer
RMU MEDIUM VOLTAGE RING MAIN UNIT SFA-RM up to 17.5 kV #rmu alfanar #mv #electricalengineering #power #mediumvoltage #ringmainunit #powerdistribution #powergeneration
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A major power transmission scheme for feeding RE power to pumped storage plants (PSP) in Maharashtra has been proposed, and this will be developed using the tariff-based competitive bidding (TBCB) route. In its latest meeting, National Committee on Transmission (NCT) has proposed to develop an interstate transmission system (ISTS) scheme officially termed as “Network expansion scheme in Western Region to cater to pumped storage potential near Talegaon (Pune),” using the TBCB mechanism. Estimated to cost around Rs.1,663 crore, this ISTS-TBCB scheme is envisaged for completion by January 1, 2027 or 24 months from the date of SPV transfer. #tbcb #ists #nct #powertransmission
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Power System Engineer| Load flow studies |Short circuit studies | Relay coordination|PVSyst |Renewables
⬇ The following are the disadvantages of low power factor: ♎ Effect on the transmission conductors: In a transmission line, to transmit a fixed power at constant voltage, at low power factor, a large amount of current will flow that will require a conductor of a large cross-sectional area. The increased cross-sectional area will increase the conductor volume for the same length of the transmission line. This will increase the capital cost for the transmission line. ♎Large kVA rating of the equipment: The kVA rating of the equipment is inversely proportional to the power factor. If the power factor is low, we will need the equipment of large kVA ratings, which will increase the cost of the equipment. ♎Copper losses: Another disadvantage of the low power factor is the copper losses. If the power factor is low, the increased current will increase the copper losses ♎Poor Voltage Regulation: If the power factor is low, large line current is drawn, which causes a voltage drop in the generator, transformer, and transmission line. To compensate the voltage regulation, extra cost is incurred on the voltage regulators. $$$$ Happy Learning $$$$ POWER PROJECTS Selvakumar S Suriya kumar S V. Dharaneswari Kalidas K R kalaivani Ramprasad #etap #powerdistribution #powerfactor #lowpowerfactor #powersystems #losses #voltage #equipmentreliability #transformer #heating
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Positive Trends: Operational performance of power utilities Transmission The performance of state transmission utilities exhibited a mixed trend during 2022-23, with utilities tracked by Power Line Research reporting transmission losses in the range of 1.09 per cent for Power Transmission Corporation of Uttarakhand Limited (PTCUL) to 3.27 per cent for Uttar Pradesh Power Transmission Corporation Limited (UPPTCL) during 2022-23. Of the 10 utilities for which data is available for 2022-23, four utilities registered a decline in their transmission losses during 2022-23 over the previous year. Meanwhile, five utilities – PTCUL, Haryana Vidyut Prasaran Nigam Limited (HVPNL), Transmission Corporation of Telangana Limited (TSTRANSCO), Maharashtra State Electricity Transmission Company Limited and Karnataka Power Transmission Corporation Limited (KPTCL) – registered an increase. One utility, Bihar State Power Transmission Company Limited (BSPTCL), did not register any change.
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Transformers and Rectifiers secures Rs 5.65-bn order Transformers and Rectifiers (India) has secured an order worth approximately Rs. 5.65 bn from Power Grid Corporation of India (PGCIL). The contract involves manufacturing transformers and reactors with capacities ranging from 80 MVAr to 500 MVA and voltage classes of 420 kV to 765 kV. Delivery of these products is anticipated by the financial year 2025-2026. The company is recognized as a leading manufacturer of transformers in India, committed to high-quality products and services. This order reflects the growing demand for reliable electrical infrastructure in the country. Conclusion: This significant order highlights Transformers and Rectifiers (India)'s pivotal role in strengthening India's electrical grid, showcasing its capability to meet large-scale demands in the energy sector. nifty 50 Cmp: Rs.25544 Transformers and Rectifiers cmp: Rs.680 under the guidance of Rishabh Kale sir
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CA with more than 23 years experience in accounts and tax and studying and researching indian companies in the equity markets
ANALYSIS OF Q4 MARCH 2024 GOOD RESULTS 1. TRANSFORMERS AND RECTIFIERS INDIA LTD PART 2 Mr. Satyen Mamtora, MD’s Comments on FY23-24 New Order Received during the year ₹ 2,050 crore Order from Solar Power Plants: ❑ Received order for Solar Power Plants for 4 nos. 250 MVA 2x33 kV/400 kV from a reputed EPC Company ❑ Received order for 8 nos. 315 MVA 2x33/400 kV from a Maharatna PSU Order from Private Sector Industry: ❑ Received maiden order for 400 kV Single Phase Generator transformers of 6 nos. 210 MVA from a steel plant Order from Metro Projects/ Railways: ❑ Received orders for Delhi Metro (DMRC) and Chennai Metro Projects Order from Central Power Utility: ❑ Received order for 72 nos. Transformers & Reactors from a leading Central Power Utility in India ❑ Received order for 2 nos. 250 MVA ICT from one of the PPP model Company ❑ Received order of 4 nos. 60 MVA Traction Power Transformer (Scott Connected) ❑ Received an order of 220 MVA EAF transformer for Exports to be used in steel melting application, it is the second biggest rating in the world. Unit to be exported in Q1FY25. Other Achievements: ❑ Successfully tested the most stringent Dynamic Short Circuit test on multiple transformers of various voltage ratings. With this company has crossed a commendable milestone of successful Dynamic short circuit test on a record 150 plus transformers in the last two decades. ❑ Technology for 765 kV class shunt reactors has been fully absorbed Mr. Chanchal Rajora, CFO’s Comments on Financial Performance Q4FY24 revenue ₹ 500 crore; FY24 revenue ₹ 1,273 crore ❑ Q4FY24 EBIDTA ₹ 65 crore; FY24 EBIDTA ₹ 129 crore ❑ Q4FY24 EBIDTA margin 12.9%; FY24 EBIDTA margin 10.0% ₹2,582 crore Unexecuted Order Book ₹2,050 crore New Order Inflow during the Year 412 crore New Order Inflow during the Quarter ₹17,176 crore Inquiries under Negotiation ❑ Revenue improvement due to faster execution of major orders, better production planning, improved receivables, internal control systems, etc. ❑ Export Contribution as a % of Revenue 11% ❑ The average monthly collection from customers during H2FY24 was Rs.144 crore which indicates stringent internal controls systems in place. ❑ Tailwind to continue & company expects much higher profit margins in years to come. The transformer market is poised for significant growth, particularly as federal investments in the development and implementation of renewable sources of energy increase, underpinning the ongoing support to create better and more efficient electricity infrastructure. Several key market trends are expected to continue driving growth, including aging electrical infrastructure, grid hardening, and modernization initiatives, expanding renewable distributed energy, and increasing demand from high-growth sectors, among many others
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New Manufactured Transformer 1000kva 1PCS and 500kva 4PCS #steema #steematransformer #uganda #electricalservices #umeme #uedcl #uegcl #transformer #lineconstruction #innovation #distributiontransformer #powerlines #powerpanel #lineconstruction #UmemeAtservice #PoweringUganda
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Power Consultant /Energy Expert /Educationist/Passive Power System Facilitator / 32nd COREN ASSEMBLY ATTENDEE /Project Manager at PRENEDOS POWER LIMITED
CONVERSION OF MVA TO MW I saw a write up on Linkedin about TCN that TCN Kano Region, commissioned a 60MVA power transformer in its Katsina Sub-Region. The energized 60MVA transformer which increased the capacity of the substation to 90MVA was a replacement for one of the existing 2x30MVA transformers in the substation. Moreso, the Kankia Substation now has 72MW of bulk electricity to transmit to Kano DisCo to distribute to electricity consumers in KANKIA, KATSINA and its ENVIRONS. What caught my attention was how 90MVA installed transformer capacity turn to 72MW? This will form the bases for our Learning session today. MW stands for megawatt which is usually used to measure the power output of a generator (Station), On the other hand, MVA stands for megavolt-amperes is use to measure the electrical load of a system (Capacity of the transformer) 50kva, 100kva,50kva , 1mva To calculate the maximum out the installed transformer can give to other injection station or the maximum it can demand from the Generating station. Below is the formula is just 1MW =PF X MVA PF is POWER FACTOR which will be the topic for another day and its peg to 0.8 So For 90MVA transformer installed capacity will give out 90MVA X 0.8 =72MW This means the 90MVA transformer can only give out 72MW. This means it can feed about 6 by 15MVA conveniently. CLASSWORK How many 500KVA and 200KVA transformer can a 5MW station accommodate without tripping?
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When using OLTCs, the price of transformers will rise by around 15–20%, while when using DETCs, the price increase will be approximately 8–12%. The cost of the OLTC is also determined by the regulating range. If, for example, a transformer with an OLTC regulating range of +/- 10% has a cost of 100%, then the cost of a transformer with a regulating range of +/-15% will be around 2-3% higher, and the cost of a transformer with a regulating range of +/-20% will be approximately 5% higher. Transformers in substations always require OLTCs, although DETCs are increasingly being specified for step-up transformers (unit generator transformers) in generating stations. OLTCs are required in all cases for substation transformers.(OLTCs are still only specified in a select number of nations)
11 factors that significantly influence the transformer price (Be careful when specifying) | EEP
electrical-engineering-portal.com
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