Abstract 

This dataset is in support of my research paper - Short Circuit Analysis of 666 Wh Li-Ion NMC

 Faults and datasets can be copied to submit in fire cause investigation reports or thesis. The simulation is run for 20 hours (72000 seconds) of simulation time for each fault of 100 faults. 

PrePrint : (Make sure you have read Caution.)

This battery system is used in drones, unmanned aerial vehicles, unmanned combat aerial vehicles, electric vehicles - autos, two wheelers, rickshaws, cars, buses etc.

There is another different dataset  : Data:Short Circuit 72Ah Li-Ion Battery & BMC. The parameters of single cell are same but the capacities, simulation parameters and datasets are totally different.

There is related dataset - Data:72Ah Li-Ion SoC from 1-8 RC using Non linear Kalman . 

Related Claim :  Novel ß Non-Linear Theory, Novel ß Li-Ion model and Novel ß Li-Ion Battery Management Controller  in Patent 'Novel ß 10-Axis Grid Compatible Multi-Controller' 

Instructions: 

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                                                                         Caution

Never try to replicate conditions given in the paper, in practice. Though the uploaded data and conditions are from real practical scenarios only,this dataset and paper is on short circuit study which means high voltages, electrical shock, fire hazard , personal injury,explosion,property damage etc. If the faults are copied,the first thing that happens is lifetime personal injury as the fault is in microseconds or nanoseconds & the author is not responsible for any mishappening.

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 Read Me

(1)  This  neither contain any complete project folder nor any source code of project.

(2) Extra Libraries created, modified , other scripts , not shared, as very elementary for any graduate,degree holder.

(3) All work is simple , on basic and elementary concepts, can be easily copied, remade and understood.

(4)  There are 10 parallel arrays, with 10 cells in each array. For other details like block/circuit diagram, battery internal parameters,set up, analysis, interpretation, parameters, mathematical formulae, faults, used to obtain these results etc. please refer "Research Paper".

(5)  The dataset has been checked by the 'Data or Code or model Inspector' before uploading.  

(6) The battery heating parameters are same as in datasets  : Data:Short Circuit 72Ah Li-Ion Battery & BMC and Data:72Ah Li-Ion SoC from 1-8 RC using Non linear Kalman The parameters of single cell are same but the capacities, simulation parameters and datasets are totally different.

(7) If any problem in creating or copying, pls contact your university professor or board or any of the companies engineer.

(8) No other question or email will be replied.

(9) Make sure you have read Caution.

 

Scripts

For Script uploaded on IEEE Codeocean, pls. read details given in ReadMe.txt.

Capsule :   Comparison P 

DOI (IEEE Codeocean)  :  

 

Dataset Files 

1) All files are zipped. Total Datasets =  1200.

2) There are  40  attached files are  Fault1.zip, Fault10.zip,......, Fault30.zip,......, Fault40.zip. Each zip folder has  30 datasets.

 3) For Fault1.zip.Fault2.zip,..., Fault9.zip, Fault10.zip , 10 different Faults are introduced,   but in the same array only, array no 2, with 10 cells in each array. And the temperature of batteries varies from 22 º Celsius to  55 º Celsius, that is, 71.6 º F to 131 º F (fahrenheit).

4)  Fault1.zip.Fault2.zip,..., Fault9.zip, Fault10.zip have following 30 datasets 

  1. SOC10.mat
  2. SOC1.mat
  3. SOC2_Faulty.mat
  4. SOC3.mat
  5. SOC4.mat
  6. SOC5.mat
  7. SOC6.mat
  8. SOC7.mat
  9. SOC8.mat
  10. SOC9.mat
  11. temp_array10.mat
  12. temp_array1.mat
  13. temp_array3.mat
  14. temp_array4.mat
  15. temp_array5.mat
  16. temp_array6.mat
  17. temp_array7.mat
  18. temp_array8.mat
  19. temp_array9.mat
  20. temp_Faultyarray2.mat
  21. voltagedrop_array10.mat
  22. voltagedrop_array1.mat
  23. voltagedrop_array3.mat
  24. voltagedrop_array4.mat
  25. voltagedrop_array5.mat
  26. voltagedrop_array6.mat
  27. voltagedrop_array7.mat
  28. voltagedrop_array8.mat
  29. voltagedrop_array9.mat
  30. voltagedrop_Faultyarray2.mat

5)  For Fault11.zip. ...,  Fault20.zip , 20 different Faults are introduced,  in the 2 arrays , array no 2. and array no. 4, with 10 cells in each array. And the temperature of batteries varies from 22 º Celsius to  55 º Celsius, that is, 71.6 º F to 131 º F (fahrenheit).

6) Fault11.zip.Fault12.zip,..., Fault19.zip, Fault20.zip have following 30 datasets 

  1. SOC10.mat
  2. SOC1.mat
  3. SOC2_Faulty.mat
  4. SOC3.mat
  5. SOC4_Faulty.mat
  6. SOC5.mat
  7. SOC6.mat
  8. SOC7.mat
  9. SOC8.mat
  10. SOC9.mat
  11. temp_array10.mat
  12. temp_array1.mat
  13. temp_array3.mat
  14. temp_array5.mat
  15. temp_array6.mat
  16. temp_array7.mat
  17. temp_array8.mat
  18. temp_array9.mat
  19. temp_Faultyarray2.mat
  20. temp_Faultyarray4.mat
  21. voltagedrop_array10.mat
  22. voltagedrop_array1.mat
  23. voltagedrop_array3.mat
  24. voltagedrop_array5.mat
  25. voltagedrop_array6.mat
  26. voltagedrop_array7.mat
  27. voltagedrop_array8.mat
  28. voltagedrop_array9.mat
  29. voltagedrop_Faultyarray2.mat
  30. voltagedrop_Faultyarray4.mat

7)  For Fault21.zip. ...,  Fault30.zip , 30 different Faults are introduced,  in the 3 arrays , array no 2, array no. 4  and array no. 6, with 10 cells in each array . And the temperature of batteries varies from 22 º Celsius to  55 º Celsius, that is, 71.6 º F to 131 º F (fahrenheit).

8) Fault21.zip....,  Fault30.zip have following 30 datasets

  1. SOC10.mat
  2. SOC1.mat
  3. SOC2_Faulty.mat
  4. SOC3.mat
  5. SOC4_Faulty.mat
  6. SOC5.mat
  7. SOC6_Faulty.mat
  8. SOC7.mat
  9. SOC8.mat
  10. SOC9.mat
  11. temp_array10.mat
  12. temp_array1.mat
  13. temp_array3.mat
  14. temp_array5.mat
  15. temp_array7.mat
  16. temp_array8.mat
  17. temp_array9.mat
  18. temp_Faultyarray2.mat
  19. temp_Faultyarray4.mat
  20. temp_Faultyarray6.mat
  21. voltagedrop_array10.mat
  22. voltagedrop_array1.mat
  23. voltagedrop_array3.mat
  24. voltagedrop_array5.mat
  25. voltagedrop_array7.mat
  26. voltagedrop_array8.mat
  27. voltagedrop_array9.mat
  28. voltagedrop_Faultyarray2.mat
  29. voltagedrop_Faultyarray4.mat
  30. voltagedrop_Faultyarray6.mat

9)  For Fault31.zip. ...,  Fault40.zip , 40 different Faults are introduced,  in the 4 arrays , array no 2, array no. 4 array no. 6 and array no. 8 , with 10 cells in each array. And the temperature of batteries varies from 22 º Celsius to  55 º Celsius, that is, 71.6 º F to 131 º F (fahrenheit).

10) Fault31.zip.....,  Fault40.zip have following 30 datasets  

  1.  SOC10.mat
  2. SOC1.mat
  3. SOC2_Faulty.mat
  4. SOC3.mat
  5. SOC4_Faulty.mat
  6. SOC5.mat
  7. SOC6_Faulty.mat
  8. SOC7.mat
  9. SOC8_Faulty.mat
  10. SOC9.mat
  11. temp_array10.mat
  12. temp_array1.mat
  13. temp_array3.mat
  14. temp_array5.mat
  15. temp_array7.mat
  16. temp_array9.mat
  17. temp_Faultyarray2.mat
  18. temp_Faultyarray4.mat
  19. temp_Faultyarray6.mat
  20. temp_Faultyarray8.mat
  21. voltagedrop_array10.mat
  22. voltagedrop_array1.mat
  23. voltagedrop_array3.mat
  24. voltagedrop_array5.mat
  25. voltagedrop_array7.mat
  26. voltagedrop_array9.mat
  27. voltagedrop_Faultyarray2.mat
  28. voltagedrop_Faultyarray4.mat
  29. voltagedrop_Faultyarray6.mat
  30. voltagedrop_Faultyarray8.mat

 

11) SOC10.mat is the SOC of array 10.

12) SOC1.mat  is the SOC of array 1.

13) SOC2_Faulty.mat is the SOC of Faulty array 2.

14) SOC3.mat is the SOC of array 3.

15) SOC4.mat is the SOC of array 4.

16) SOC5.mat is the SOC of array 5.

17) SOC6.mat is the SOC of array 6. 

18) SOC7.mat is the SOC of array 7.

19) SOC8.mat is the SOC of array 8.

20) SOC9.mat is the SOC of array 9.

21) temp_array10.mat is the temperature of array 10.

22) temp_array1.mat is the temperature of array 1.

23) temp_array3.mat is the temperature of array 3.

24) temp_array4.mat is the temperature of array 4.

25) temp_array5.mat is the temperature of array 5.

26) temp_array6.mat is the temperature of array 6.

27) temp_array7.mat is the temperature of array 7.

28) temp_array8.mat is the temperature of array 8.

29) temp_array9.mat is the temperature of array 9.

30) temp_Faultyarray2.mat is the temperature of Faulty array 2.

31) voltagedrop_array10.mat is the voltage drop of array 10.

32) voltagedrop_array1.mat is the voltage drop of array 1.

33) voltagedrop_array3.mat is the voltage drop of array 3.

34) voltagedrop_array4.mat is the voltage drop of array 4.

35) voltagedrop_array5.mat is the voltage drop of array 5.

36) voltagedrop_array6.mat is the voltage drop of array 6.

37) voltagedrop_array7.mat is the voltage drop of array 7.

38) voltagedrop_array8.mat is the voltage drop of array 8.

39) voltagedrop_array9.mat is the voltage drop of array 9.

40) voltagedrop_Faultyarray2.mat is the voltage drop of Faulty array 2.

41) voltagedrop_Faultyarray4.mat is the voltage drop of Faulty array 4.

42) SOC4_Faulty.mat is the SOC of Faulty array 4. 

43) temp_Faultyarray4.mat is the temperature of Faulty array 4.

44) SOC6_Faulty.mat is the SOC of Faulty array 6.

45) temp_Faultyarray6.mat is the temperature of Faulty array 6.

46) voltagedrop_Faultyarray6.mat  is the voltage drop of Faulty array 6.

47) voltagedrop_Faultyarray8.mat  is the voltage drop of Faulty array 8.

48) SOC8_Faulty.mat is the SOC of Faulty array 6.

49) temp_Faultyarray8.mat  is the temperature of Faulty array 8.

 

 

How use Dataset Files

 The data can be studied and used in various ways.

(1)  The values given in the dataset or in the Research paper can be used by energy audit companies, manufacturers, R&D engineers,railway, metro, medical, transportation,nuclear,chemical,defence, military,etc.

(2)  The dataset and Research paper can be used to design more variants and more safe systems.

(3) The dataset and Research paper can be used for study using less engineering knowledge or with open-source softwares.

(4)  There are many data analysis softwares - proprietary and open source softwares.

(5)  The dataset can be loaded into proprietary softwares or trial versions of Finite element or other simulation softwares to regenerate same model  or other model or to conduct other study.

(6) The collective graph of the complete dataset in each experiment is also given. For finer analysis, the dataset can be used to see details at much shorter interval.

(7) Faults can be copied to submit in fire cause investigation reports.

(8) One particular study or some experiments can be copied for degree thesis, project or phd thesis.

 

Paper Citing : If want to cite this in paper etc. ,please refer DoI and/or this url.

Funding: There are no funders for this submission. The author has himself fully self-financed (for his passion). I expect all these papers, would be nice Shroud for the passion and the price paid.

Acknowlegement :  The author as such thankful to none and does not have any special name to be acknowledged.

Comments

The dataset has been uploaded. This is the last version & there will be no change in the datasets.
Abhishek

Submitted by Abhishek Bansal on Fri, 11/18/2022 - 19:14

Hello
This entry is for International Contest(Category:Individual,Solo), the datasets have been uploaded only during the contest time period.
Only Preprint page links will get updated in Dec. 2022 ( I have removed them as weblinks not functional).
This DOI entry is complete. If I make new prototype or do simulation, it will be in another DOI/dataset.
Thanks
Abhishek Bansal
(Category:Individual,Solo)
Delhi,India

Submitted by Abhishek Bansal on Wed, 11/23/2022 - 13:24

Hello
I m not completing research paper, the earlier version got lost in computer crash.
I will not re-write or submit paper as left R&D.
Abhishek Bansal

Submitted by Abhishek Bansal on Sun, 12/18/2022 - 13:28

Dataset Files

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