AN APPLICATION OF MS-EXCEL FOR COMPUTATION OF VARIOUS TRANSFORMER PARAMETERS
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1 AN APPLICATION OF MS-EXCEL FOR COMPUTATION OF VARIOUS TRANSFORMER PARAMETERS Prof. Manan M. Desai 4 Assistant Professor DegreeElectrical Engineering Dr. Subhash Technical Campus, Junagadh Ghadiya Kishan S. 1 Gohel Tushar M. 2 Baraiya Yogesh 3 Dr. Subhash Technical Campus Dr. Subhash Technical Campus Dr. Subhash Technical Campus Junagadh Junagadh Junagadh ABSTRACT Transformer is a very important part of any substations, which affects overall costing of transmission and distribution budgets. So, it is necessary to design economical, viable, low weight, small size efficient transformer.the design of transformer depend to large extent on the specific requirement of the customer. The main objective of our project is to develop a program for transformer design using Excel sheet. This Programming has ability to execute many difficult and reiterative calculations and step-wise procedure leading to a design that satisfies all input specification.with the Calculation technologies in the power industry, new references addressing new technologies are coming to the market. Based on this fact, there is an urgent need to keep track of international experiences and activities taking place in the field of modern transformer design. The complexity of transformer design demands reliable and rigorous solution methods. A survey of current research reveals the continued interest in application of advanced techniques for transformer design optimization. This paper conducts a literature survey and reveals general backgrounds of research and developments in the field of transformer design and optimization for the past 30 years, based on more than 200 published articles, 25 transformer books, and 50 standards.[1] Keywords :-Microsoft excel, visual basic, power system analysis, equivalent circuits, experimental methods, numerical techniques, standards, survey, transformer books, transformer design optimization. 1. Introduction Transformer design is a complex task in which engineers have to ensure that compatibility with the imposed specifications is met, while keeping manufacturing costs low. Moreover, the design methodology may vary significantly according to the transformer type (distribution or power transformer) and its operating frequency (ranging between 50/60 Hz and a few MHz), while many alterations according to the core constructional characteristics, the cooling method, or the type of the magnetic material may be encountered. This paper provides an overview of research, development and application of various computational methods for transformer design, based on an extensive number of published papers. The review is divided into two major sections: research efforts focusing on the prediction and/or optimization of specific transformer characteristics (mainly losses and short-circuit impedance) and techniques adopted for global transformer design optimization, taking into account all the relevant performance parameters.[2] 2. Methodology Design With the rapid development of the digital computer, designers are no longerassist to their performance of the routine calculations. Computer is widely use in optimized of transformer designwithintheir matter of the seconds. We have make an excel sheet that includes transformer parameter calculation easily. 43 Prof. Manan M. Desai, Ghadiya Kishan S., Gohel Tushar M., Baraiya Yogesh
2 These are the input parameters of transformer :- KVA rating of Transformer Primary voltage Secondary voltage No load losses No load current Full load losses Impedance voltage LV resistance in mili ohms HV resistance in ohms Amb temperature Total Connected Load on Transformer Above transformer data include in excel sheet and we got the calculation of transformer parameters. 3. CASE STUDY This section presents the mathematical formulation of the objective function, design variables, and design constraints for distribution transformer design optimization. This technique is integrated in excel environment, using suitable graphical user interface. The transformer inputs involves design parameters, such as rated power, voltages, etc., comprises of the upper/lower limits and the initial value of the design. For optimizing the transformer design is based on the minimization of the overall transformer cost function. 3.1Formula HV Full load current = VA / (1.732xVolt) LV Full load current = VA / (1.732xVolt) HV Side I2R losses = I²R x1.5 LV Side I²R losses = I²R x0.5x3 Total I² R Amb temp = Hv losses + Lv losses Total Stray Amb temp = Measured losses -I² R losses I² R c temp = ((225+75) x losses) / (225+ Amb temp) Stray 75 c temp = ((225+Amb temp)(stray losses at amb)) / 300 Total Full load losses c = I²R losses at 75 c+stray losses at 75 c Total Impedance at ambient temp = (Imp voltage x 1.732) / Full load current Total Resistance at ambient temp = I²R losses / I² Total Reactance (X) = SQRT(Impedance ²- Resitance ²) Resistance at@ 75 c = (300 x resistance at ambient ) /(225+Amb temp) Impedance at 75 c = SQRT(R² at 75 + X²) Percentage Impedance = (Z at 75 c x I x 100)/V1 Percentage Resistance = ( R 75 c x I x 100)/V1 Percentage Reactance = (X x I x 100) / V1 Regulation at Unity P.F = (%R cosø+%xsinø) Regulation at 0.8 p.f. =(%R cosø+%xsinø)+1/200(%r sinø-%xcosø)2" Efficiency at Unity P.F o At 125 % of Transformer Loading = (Kva x 1.25 x 100)/((kva x 1.25)+(I²R losses x 1.25²)+(No Load Losses)) Efficiency at 0.8 P.F o At 125 % of Transformer Loading = (Kva x 1.25xp.f x 100)/((kvaxp.fx 1.25)+(I²R losses x 1.25²)+(No Load Losses)) 3.2 Parameter Caculations I 2 R Losses :- 1. LV Full load current = (KVA rating of Transformer)/( Secondary voltage*1.732) 44 Prof. Manan M. Desai, Ghadiya Kishan S., Gohel Tushar M., Baraiya Yogesh
3 = (16000)/(11000*1.732) = 0.84 Amps 2. LV Full load current = (KVA rating of Transformer)/( Secondary voltage*1.732) = (16000)/(433*1.732) = Amps 3. HV Side I²R losses = (HV Full Load Current) ^2* HV resistance*1.5 = (0.84*0.84)*215*1.5 = Watts 4. LV Side I²R losses = (LV Full Load Current) ^2* LV resistance*1.5 = (21.33*21.33)*219.16mΩ*1.5 = Ohms 5. Total I² R Amb temp = HV Side I²R losses + LV Side I²R losses = (227.80)+(149.56) Ω = Ohms 6. Total Stray Amb temp= (LV Side resistance in mili Ω) - Total I² R Amb temp = (219.16mili ohm s) ( watts) = 16.57watts 7. Total I² R Amb temp = ((225+75) total I²R losses) / (225+ Amb temp) = ((225+75) x337.43) / ( ) = Watts 8. Stray 75 c temp = ((Total Stray Amb temp)*(235+ Amb temperature))/(310) = ((16.57watts)*( ))/(310) = 14.16Watts 9. Total Full load losses c = =( Total I² R Amb temp)+( TotalStray 75 c temp) = (441.52Watts)+(14.16Watts) = Watts 10. Total Impedance at ambient temp = ( Impedance voltage*1.732)/( HV Full load current) = 480*1,732)/(0.84) = Ohms 11. Total Resistance at amb temp = ( Total I²R Amb temp)/((hv Full Load Current) 2 ) = ( )/(0.84) 2 = Ohms 12. Total Reactance (X) = SQRT(Impedance ²- Resistance ²) = SQRT((989.94) ²- (535.15) ²) = Ω 13. Resistance at@ 75 c = (310 *total resistance at ambient ) /(225+Amb temp) = (310 *535.15) /(225+30) = Ω 14. Impedance at@ 75 c = SQRT(R² at 75 + X²) = SQRT((625) 2 + (832.82) 2 ) = Ω 15. Percentage Impedance = (Impedance*0.5774*HV Load Current*100)/(Primary Voltage) = ( *0.5774*0.84*100)/(11000) =4.59% 16. Percentage Resistance = (Resistance at 75 c*0.5774*hv Load Current*100)/(Primary Voltage) = (535.15*0.5774*0.84*100)/(11000) =2.76% 17. Percentage Reactance = (Total Reactance *0.5774* HV Load Current *100)/(Primary Voltage) = (832.82Ω *0.5774* 0.84*100)/(11000) =3.67% 45 Prof. Manan M. Desai, Ghadiya Kishan S., Gohel Tushar M., Baraiya Yogesh
4 Regulation Calculation:- 1. Regulation at Unity P.F = (%R cosø+%xsinø) = ((2.75*0.8)+ (3.67*0.6)) = Regulation at 0.8 P.F = (%R cosø+%xsinø)+1/200(%r sinø-%xcosø) 2 =( ( )) (( ) + ( )) 2 = 4.43% Efficiency Calculation:- 1. Efficiency at Unity P.F = (KVA*1.25*100)/((KVA* 1.25)+(I²R losses*1.25²)+(no Load Losses)) = (16000*1.25*100)/((16000*1.25)+(377.45*1.25²)+(72)*100 = 96.80% 2. Efficiency at 0.8 P.F = = (KVA x 1.25xp.f x 100)/((KVA xp.fx 1.25)+(I²R losses x 1.25²)+(No Load Losses = (16000*1.25*.8*100)/((16000*1.25*0.8+(377.45*0.8*1.25²)+(72)*100 = 99.52% 4. RESULT Now a day to calculate transformer parameters method is very lengthy, hard and it take a so much time of operators. So, we make this project to calculate transformer parameter and it is very easy and give output within there matter of seconds. I²R losses Calculation:- Theoretical Calculation Practical Calculation HV Full load current : A HV Full load current : A LV Full load current :- 21 A LV Full load current : A HV Side I²R losses :- 225 W HV Side I²R losses : W LV Side I²R losses:- 150 W LV Side I²R losses: W Total I² R ambient temp:- 376 W Total I² R ambient temp: W Total Stray ambient temp:- 15 W Total Stray ambient temp: W I² R c temp:- 441 I² R c temp: W Stray 75 c temp:- 15 W Stray 75 c temp: W Total Full load losses c :- 455 W Total Full load losses c : W Total Impedance at ambient temp:- 989 Ω Total Impedance at ambient temp: Ω Total Resistance at ambient temp:- 535 Ω Total Resistance at ambient temp: Ω Total Reactance (X):- 831 Ω Total Reactance (X): Ω Resistance at@ 75 c: Ω Resistance at@ 75 c: Ω Impedance at 75 c : Ω Impedance at 75 c : Ω Percentage Impedance: % Percentage Impedance: % Percentage Resistance : % Percentage Resistance : % Percentage Reactance : % Percentage Reactance : % 46 Prof. Manan M. Desai, Ghadiya Kishan S., Gohel Tushar M., Baraiya Yogesh
5 Regulation Calculation :- Theoretical Calculation Practical Calculation Regulation at P.F of unity : % Regulation at P.F of unity : % Regulation at P.F of 0.8 : % Regulation at P.F of 0.8 : % Efficiency Calculation :- Efficiency at P.F of Unity:- Efficiency at P.F of Unity:- At Transformer Loading 125% : % At Transformer Loading 125% : % Efficiency at P.F of 0.8 Efficiency at P.F of 0.8 At Transformer Loading 125% : % At Transformer Loading 125% : % 5. CONCLUSION In this projectwe got the information and practical knowledge about Transformer. We got the knowledge about different type of transformer testing, I² R loss, efficiency, regulation, outer and inner part of transformer like core, winding, relay etc. We have make an excel sheet that includes transformer parameter calculation easily. Because all calculations is done by there programming, by human errors is eliminated which turn eliminate cost associated by these.these project are very useful for industrial and power supplier. by use this software they not need any external document require. 6. REFERENCES [1] Eleftherios I. Amoiralis, Marina A. Tsili,and Antonios G. Kladas,IEEETransactions on Power Delivery. November 2009 DOI: /TPWRD Source: IEEE Xplore [2] Eleftherios I. Amoiralis, Marina A. Tsilia, Pavlos S. Georgilakis,Journalof optoelectronics and advanced materials Vol. 10, No. 5, May 2008, p [3] K. Zakrzewski, B. Tomczuk, and D. Koteras, Simulation of forces and 3-D field arising during power autotransformer fault due to electric arc in HV winding, IEEE Trans. Magn., vol. 38, no. 2, pp , Mar [4] American Journal of Engineering Research (AJER) e-issn : p-issn : Volume-4, Issue-2, pp Prof. Manan M. Desai, Ghadiya Kishan S., Gohel Tushar M., Baraiya Yogesh
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