Fossil oil, as the main energy of transportation, is destined to be exhausted. The electrification of transportation is a sustainable solution to the energy crisis, since electric power could be acquired from the inexhaustible sun, wind and water. Among all the problems that hinder the development of Electric Vehicle (EV) industry, charging issue might be the most prominent one. In this paper, the service process of a charging station with Battery Energy Storage System (BESS) is analyzed by means of Cramér – Lundberg model which has been intensively utilized in ruin theory. The service quality is proposed in two dimensions: the service efficiency and the service reliability. The arrival rate and State of Charge (SOC) upon arrival are derived from 2009 National Household Travel Survey (NHTS). The simulations are performed to show how the service quality is determined by the system parameters such as the number of servers, the service rate, the initial capacity, the charge rate and the maximum waiting time. At last, the economic analysis of the system is conducted and the best combination of the system parameters are given.

• Abstract
• 1. Introduction
• 2. Service Mechanism of the System
• 3. Service Quality
• 4. Parameters and Assumptions
• 5. Results and Discussions
• 6. Economic Analysis
• 7. Case Study
• 8. Conclusion
• References

1 "https://www.tesla.com/supercharger"

2 "http://www.hybridcars.com/chevy-bolt-productionconfirmed-for-2016/"

3 U. C. Chukwu, "V2G Parking Lot with PV Rooftop for Capacity Enhancement of a Distribution System" 5 (5): 119-127, 2014

4 U. C. Chukwu, "V2G Electric Power Capacity Estimation and Ancillary Service Market Evaluation" 2011

5 E. Muñoz, "Using Fuzzy Queuing Theory to Analyze the Impact of Electric Vehicles on Power Networks" 2012

6 A. Janjic, "Two-step Algorithm for the Optimization of Vehicle Fleet in Electricity Distribution Company" 65 : 307-315, 2015

7 S. -Y. Ge, "The Planning of Electric Vehicle Charging Stations in the Urban Area" 23 : 2012

8 B. D. Williams, "Strategy for Overcoming Cost Hurdles of Plug-In-Hybrid Battery in California, Integrating Post-Vehicle Secondary Use Values" (2191) : 59-66, 2010

9 I. S. Bayram, "Strategies for Competing Energy Storage Technologies for in DC Fast Charging Stations" 1-6, 2012

10 S. Bae, "Spatial and Temporal Model of Electric Vehicle Charging Demand" 3 (3): 394-403, 2012

11 T. Carpenter, "Sizing Finite-Population Vehicle Pools" 15 (15): 1134-1144, 2014

12 E. Muñoz, "Simulation of Fuzzy Queueing Systems with a Variable Number of Servers, Arrival Rate, and Service Rate" 22 (22): 892-903, 2014

13 S. Asmussen, "Ruin Probabilities" 103-106, 2000

14 P. Han, "Resident Plug-In Electric Vehicle Charging Modeling and Scheduling Mechanism in the Smart Grid" Mathematical Problems in Engineering 2014

15 G. Jiang, "Research on Control Strategy of Energy Storage Buffer System for Electric Vehicle Smart Charging Station" 2012

16 D. Said, "Queuing Model for EVs Charging at Public Supply Stations" 65-70, 2013

17 Kisuk Kim, "Power Demand and Total Harmonic Distortion Analysis for an EV Charging Station Concept Utilizing a Battery Energy Storage System" 대한전기학회 8 (8): 1234-1242, 2013

18 Q. Gong, "PEV Charging Control for a Parking Lot Based on Queuing Theory" 1124-1129, 2013

19 Z. Lin, "Optimizing and Diversifying Electric Vehicle Driving Range for U. S. Drivers" 48 (48): 635-650, 2014

20 N. H. Tehrani, "Optimized Power Trading of a PEV Charging Station with Energy Storage System" 305-310, 2012

21 C. Corchero, "Optimal Sizing of Microgrids : A Fast Charging Station Case" 2012

22 A. Janjić, "Optimal Number of Electric Vehicles in Electricity Distribution Company" 1397-1402, 2014

23 P. Plötz, "On the Distribution of Individual Daily Vehicle Driving Distances" 2014

24 D. Said, "Multi-priority Queuing for Electric Vehicles Charging at Public Supply Stations with Price Variation" 15 (15): 1049-1065, 2015

25 G. Li, "Modeling of Plug-in Hybrid Electric Vehicle Charging Demand in Probabilistic Power Flow Calculations" 3 (3): 492-499, 2012

26 V. G. Kulkarni, "Modeling and Analysis of Stochastic Systems" 295-296, 2010

27 I. S. Bayram, "Local Energy Storage Sizing in Plug-in Hybrid Electric Vehicle Charging Stations Under Blocking Probability Constraints" 2011

28 R. Garcia-Valle, "Letter to the Editor : Electric Vehicle Demand Model for Load Flow Studies" 37 (37): 577-582, 2009

29 J. Zhao, "Integrated Analysis of High-Penetration PV and PHEV with Energy Storage and Demand Response" 112 : 35-51, 2013

30 Z. Duan, "Forecasting Plug-In Electric Vehicle Sales and the Diurnal Recharging Load Curve" 5 (5): 527-535, 2014

31 G. Qiu, "Equipment Optimization Method of Electric Vehicle Fast Charging Station Based on Queuing Theory" 291-294 : 872-877, 2013

32 C. Jin, "Energy efficient Algorithms for Electric Vehicle Charging with Intermittent Renewable Energy Sources" 2013

33 T. D. Atmaja, "Energy Storage System Using Battery and Ultracapacitor on Mobile Charging Station for Electric Vehicle" 68 : 429-437, 2015

34 C. Heymans, "Economic Analysis of Second Use Electric Vehicle Batteries for Residential Energy Storage and Loadlevelling" 71 : 22-30, 2014

35 W. Liu, "Device Configuration and Investment Decision-Making of Fast Charging Station" 291-294 : 866-871, 2013

36 S. Huang, "Design of a Mobile Charging Service for Electric Vehicles in an Urban Environment" 16 (16): 787-798, 2015

37 A. Y. S. Lam, "Capacity Management of Vehicle-to-Grid System for Power Regulation Services" 442-447, 2012

38 N. Jakobsson, "Are Multi-Car Households Better Suited for Battery Electric Vehicles?-Driving Patterns and Economics in Sweden and Germany" 65 : 1-15, 2016

39 C. Hou, "An Assessment of PHEV Energy Management Strategies Using Driving Range Data Collected in Beijing" 2013

40 C. King, "Alleviating a Form of Electric Vehicle Range Anxiety through On-Demand Vehicle Access" 88 (88): 717-728, 2015

41 M. Alizadeh, "A Scalable Stochastic Model for the Electricity Demand of Electric and Plug-In Hybrid Vehicles" 5 (5): 848-860, 2014

42 H. Yudai, "A Safety Stock Problem in Battery Switch Stations for Electric Vehicles" 10 : 332-339, 2009

43 S. J. Baek, "A Queuing Model with Random Interruptions for Electric Vehicle Charging Systems" 679-680, 2011

44 P. Han, "A Novel Coordinative Resident Electric Vehicle Charging Mechanism" 2012

45 H. Wang, "A GPS-Based Research on Driving Range and Patterns of Private Passenger Vehicle in Beijing" 2013

46 K. Richa, "A Future Perspective on Lithium-ion Battery Waste Flows from Electric Vehicles" 83 : 63-76, 2014

47 "2009 National Household Travel Survey" U.S. Department of Transportation, Federal Highway Administration