An Analysis of Accessibility to Hydrogen Charging Stations in Seoul Based on Location-Allocation Models

doi:10.15683/kosdi.2024.6.30.339

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2024 Vol.20, Issue 2 Preview Page Next Page

Original Article

An Analysis of Accessibility to Hydrogen Charging Stations in Seoul Based on Location-Allocation Models 입지배분모형 기반의 서울시 수소충전소 접근성 분석: 김상균^1,2 *ㆍ원종석³ ㆍ편용범⁴ ㆍ조민경⁵
Sang-Gyoon Kim^1,2 *, Jong-Seok Won³ , Yong-Beom Pyeon⁴ , Min-Kyung Cho⁵; ¹ Researcher, Division of Safety and Infrastructure Research, The Seoul Institute, Seoul, Republic of Korea
² Doctoral Candidate, Interdisciplinary Program in Crisis, Disaster and Risk Management, Sungkyunkwan University, Suwon, Republic of Korea
³ Research Fellow, Division of Safety and Infrastructure Research, The Seoul Institute, Seoul, Republic of Korea
⁴ Navy LCDR, Republic of Korea Navy, Daejeon, Republic of Korea
⁵ Postdoctoral Researcher, Interdisciplinary Program in Crisis, Disaster and Risk Management, Sungkyunkwan University, Suwon, Republic of Korea

30 June 2024. pp. 339-350

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Abstract

Purpose: This study analyzes accessibility of 10 hydrogen charging stations in Seoul and identifies areas that were difficult to access. The purpose is to re-analyze accessibility by adding a new location in terms of equity and safety of location placement, and then draw implications by comparing the improvement effects. Method: By applying the location-allocation model and the service area model based on network analysis of the ArcGIS program, areas with weak access were identified. The location selection method applied the 'Minimize Facilities' method in consideration of the need for rapid arrival to insufficient hydrogen charging stations. The limit distance for arrival within a specific time was analyzed by applying the average vehicle traffic speed(23.1km/h, Seoul Open Data Square) in 2022 to three categories: 3,850m(10minutes), 5,775m(15minutes), 7,700m(20minutes). In order to minimize conflicts over the installation of hydrogen charging stations, special standards of the Ministry of Trade, Industry and Energy applied to derive candidate sites for additional installation of hydrogen charging stations among existing gas stations and LPG/CNG charging stations. Result: As a result of the analysis, it was confirmed that accessibility was significantly improved by installing 5 new hydrogen charging stations at relatively safe gas stations and LPG/CNG charging stations in areas where access to the existing 10 hydrogen charging stations is weak within 20 minutes. Nevertheless, it was found that there are still areas where access remains difficult. Conclusion: The location allocation model is used to identify areas where access to hydrogen charging stations is difficult and prioritize installation, decision-making to select locations for hydrogen charging stations based on scientific evidence can be supported.

Keywords

Hydrogen Charging Station

Location-Allocation Model

Service Area Model

Accessibility

Geographic Information System

Decision Support System

연구목적: 이 연구는 서울시 10개 수소충전소의 공간적 접근성 분석을 실시하고, 접근이 어려운 지역을 식별하였다. 입지의 형평성과 안전성 측면에서 신규 입지를 추가하여 접근성을 분석을 다시 수행한 후, 개선효과 비교를 통해 시사점을 도출하는 것을 목적으로 한다. 연구방법: ArcGIS 프로그램의 네트워크 분석 기반의 입지배분(Location-Allocation) 모형과 이용권역(Service Area) 모형을 적용하여 접근이 취약한 지역을 식별하였다. 입지선정 방분석 기반의 입지배분(Location-Allocation) 모형과 이용권역(Service Area) 모형을 적용하여 접근이 취약한 지역을 식별하였다. 입지선정 방법은 부족한 수소충전소에 신속한 도착이 필요한 점을 고려하여 ‘최소시설 수로 최대수요를 확보하도록 함(Minimize Facilities)’ 방법을 적용하였다. 특정한 시간 내의 도착을 위한 한계 거리는 서울시 2022년 평균 차량통행속도(23.1km/h, 서울시 열린데이터 광장)를 적용하여 10분 이동가능 거리인 3,850m과 5,775m(15분) 그리고 7,700m(20분)의 세 가지로 분하여 분석하였다. 신규 입지는 수소충전소 설치에 대한 갈등을 최소화하기 위하여 산업통상자원부의 특례기준산업통상자원부, 융·복합, 패키지형 및 이동식 자동차충전소 시설기준 등에 관한 특례기준 을 적용하여 기존의 주유소, LPG/CNG 충전소 중에서 수소충전소 추가 설치가 가능한 후보지를 도출하였다. 연구결과: 분석 결과, 최종적으로 상세 현황 검토를 통해 추가 후보지 5개소가 도출되었다. 기존 10개의 수소충전소에 20분 이내 접근이 취약한 지역을 중심으로 상대적으로 안전한 기존 주유소와 LPG/CNG 충전소에 신규 수소충전소 5개소를 설치하면 접근성이 크게 개선됨을 확인할 수 있었다. 그럼에도 불구하고 여전히 접근이 어려운 지역이 있는 것으로 나타났다. 결론: 입지배분모형을 이용하여 수소충전소 접근이 어려운 지역을 식별하고, 설치의 우선순위를 부여한다면 과학적 근거 기반 수소충전소 입지 선정을 위한 의사결정을 지원할 수 있다.

키워드

수소충전소

입지배분 모형

이용권역 모형

접근성

지리정보시스템(GIS)

의사결정 지원

References

Choi, B.M. (2017). A Study on Prediction of Optimal Location Selection for Hydrogen Stations. Master's Dissertation, Korea University.
Comprehensive Information Portal for Hydrogen Economy, https://h2hub.or.kr
ESRI ArcGIS Network-Analyst. https://desktop.arcgis.com/en/arcmap/latest/extensions/network-analyst
Jeremy Rifkin Interview. https://www.handelsblatt.com/technik/forschung-innovation/zukunftsforscher-und-autor-jeremy-rifkin-im-interview-die-wasserstoff-wirtschaft-ist-da/25510824.html
Jo, J.H., Kim, S.S. (2021). "A study on the optimal location selection for hydrogen refueling stations on a highway using machine learning." Journal of Cadastre & Land InformatiX, Vol. 51, No. 2, pp. 83-106.
Jo, J.H., Kim, S.S. (2023). "Multi-period hydrogen charging station location model for hydrogen-fueled trucks in Korean expressway based on FRLM." Journal of the Korean Production and Operations Management Society, Vol. 34, No. 3, pp. 361-389. 10.32956/kopoms.2023.34.3.361
Kim, S.H., Ryu, J.H. (2020). "A machine learning based methodology for selecting optimal location of hydrogen refueling stations." Korean Chemical Engineering Research, Vol. 58, No. 4, pp. 573-580.
Korea Culture Information Service Agency https://www.kcisa.kr
Korea Gas Safety Corporation https://www.kgs.or.kr
Lee, J.W., Kim, C.S. (2022). "A study on the risk assessment for strengthening management safety of hydrogen fueling station." Journal of the Society of Disaster Information, Vol. 18, No. 3, pp. 520-531.
Lee, J.W., Kim, C.S. (2023). "A study on the application of business disaster reduction activities to strengthen the business continuity of hydrogen charging stations." Journal of the Society of Disaster Information, Vol. 19, No. 2, pp. 411-420.
Lin, R., Ye, Z., Guo, Z., Wu, B. (2020). "Hydrogen station location optimization based on multiple data sources." International Journal of Hydrogen Energy, Vol. 45, No. 17, pp. 10270-10279. 10.1016/j.ijhydene.2019.10.069
Ministry of Trade, Industry and Energy Press Release, https://www.motie.go.kr/kor/article/ATCL3f49a5a8c/168351/view
Park, J.W., Huh, Y.S., Kang, S.K. (2017). "A study on site to build hydrogen multi energy filling station in domestic LPG station." Transactions of the Korean Hydrogen and New Energy Society, Vol. 28, No. 6, pp. 642-648.
Seoul Facilities Corporation, https://www.sisul.or.kr/open_content/traffic/intro/present.jsp
Seoul Open Data Plaza. https://data.seoul.go.kr
The Korean Law Information Center. https://www.law.go.kr
The Integrated Nuri House of low-pollution vehicles, https://ev.or.kr
V-World. https://www.vworld.kr

Information

Publisher :The Korean Society of Disaster Information
Publisher(Ko) :한국재난정보학회
Journal Title :Journal of the Society of Disaster Information
Journal Title(Ko) :한국재난정보학회논문집
Volume : 20
No :2
Pages :339-350
DOI :https://doi.org/10.15683/kosdi.2024.6.30.339

[1] Choi, B.M. (2017). A Study on Prediction of Optimal Location Selection for Hydrogen Stations. Master's Dissertation, Korea University.

[2] Comprehensive Information Portal for Hydrogen Economy, https://h2hub.or.kr

[3] ESRI ArcGIS Network-Analyst. https://desktop.arcgis.com/en/arcmap/latest/extensions/network-analyst

[4] Jeremy Rifkin Interview. https://www.handelsblatt.com/technik/forschung-innovation/zukunftsforscher-und-autor-jeremy-rifkin-im-interview-die-wasserstoff-wirtschaft-ist-da/25510824.html

[5] Jo, J.H., Kim, S.S. (2021). "A study on the optimal location selection for hydrogen refueling stations on a highway using machine learning." Journal of Cadastre & Land InformatiX, Vol. 51, No. 2, pp. 83-106.

[6] Jo, J.H., Kim, S.S. (2023). "Multi-period hydrogen charging station location model for hydrogen-fueled trucks in Korean expressway based on FRLM." Journal of the Korean Production and Operations Management Society, Vol. 34, No. 3, pp. 361-389. 10.32956/kopoms.2023.34.3.361

[7] Kim, S.H., Ryu, J.H. (2020). "A machine learning based methodology for selecting optimal location of hydrogen refueling stations." Korean Chemical Engineering Research, Vol. 58, No. 4, pp. 573-580.

[8] Korea Culture Information Service Agency https://www.kcisa.kr

[9] Korea Gas Safety Corporation https://www.kgs.or.kr

[10] Lee, J.W., Kim, C.S. (2022). "A study on the risk assessment for strengthening management safety of hydrogen fueling station." Journal of the Society of Disaster Information, Vol. 18, No. 3, pp. 520-531.

[11] Lee, J.W., Kim, C.S. (2023). "A study on the application of business disaster reduction activities to strengthen the business continuity of hydrogen charging stations." Journal of the Society of Disaster Information, Vol. 19, No. 2, pp. 411-420.

[12] Lin, R., Ye, Z., Guo, Z., Wu, B. (2020). "Hydrogen station location optimization based on multiple data sources." International Journal of Hydrogen Energy, Vol. 45, No. 17, pp. 10270-10279. 10.1016/j.ijhydene.2019.10.069

[13] Ministry of Trade, Industry and Energy Press Release, https://www.motie.go.kr/kor/article/ATCL3f49a5a8c/168351/view

[14] Park, J.W., Huh, Y.S., Kang, S.K. (2017). "A study on site to build hydrogen multi energy filling station in domestic LPG station." Transactions of the Korean Hydrogen and New Energy Society, Vol. 28, No. 6, pp. 642-648.

[15] Seoul Facilities Corporation, https://www.sisul.or.kr/open_content/traffic/intro/present.jsp

[16] Seoul Open Data Plaza. https://data.seoul.go.kr

[17] The Korean Law Information Center. https://www.law.go.kr

[18] The Integrated Nuri House of low-pollution vehicles, https://ev.or.kr

[19] V-World. https://www.vworld.kr

Journal of the Society of Disaster Information ISSN:1976-2208(Print) 2671-5287(Online) 한국재난정보학회논문집

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