2020년에 국내 골재 총 채취량은 약 1억3,150만 m3 이며, 이 중 모래는 약 4,386만 m3(33.3%), 자갈은 약 8,749만 m3(66.7%) 채취되었으며, 허가채취는 약 5,858만 m3(45%), 신고채취는 약 7,277만 m3(55%)이다. 골재원별로 보면 하천골재 약 50만 m3, 육상골재 약 380만 m3, 산림골재 약 4,680만m3, 바다골재 약 740만m3, 선별파쇄 약 6,827만m3, 선별세척 약 331만m3, 그리고 기타신고골재가 약 110만m3로 선별파쇄골재와 산림골재가 전체 채취량의 약 88% 차지하고 있다. 경기도가 광역시도에서는 골재를 가장 많이 채취하였으며, 그 다음으로 경상남도, 충청북도, 강원도 충청남도, 인천광역시의 순이다. 2020년에는 231개 시군구의 약 67%인 153개 시군구에서 골재를 채취하였으며, 38개 시군구에서 100만 m3 이상의 골재를 채취하였으며, 채취량은 전국 채취량의 65%인 약 8,567만 m3이다. 2020년도에는 약 1040여개소의 채취장이 운영되었으나 실제 골재를 채취한 채취장은 약 889개 채취장으로 선별파쇄장이 약 415개소로 가장 많으며, 산림골재, 육상골재장은 200개소 내외이다. 100만 m3 이상을 채취한 채취장은 14개 채취장이며, 1만 m3 이하의 소규모 채취장도 약 126개소이다. 약 420여개의 허가채취장에서 허가기간은 최장 32년에서 최소 2개월이며, 허가 잔여기간을 보면 2021년 이후 채취가능한 채취장이 약 55% 이며, 2020년 수준의 허가 골재채취물량을 유지하기 위해서는 최소한 200여개 이상의 채취장에 대해 허가연장, 신규허가가 필요할 것이다.
2020년에 국내 골재 총 채취량은 약 1억3,150만 m3 이며, 이 중 모래는 약 4,386만 m3(33.3%), 자갈은 약 8,749만 m3(66.7%) 채취되었으며, 허가채취는 약 5,858만 m3(45%), 신고채취는 약 7,277만 m3(55%)이다. 골재원별로 보면 하천골재 약 50만 m3, 육상골재 약 380만 m3, 산림골재 약 4,680만m3, 바다골재 약 740만m3, 선별파쇄 약 6,827만m3, 선별세척 약 331만m3, 그리고 기타신고골재가 약 110만m3로 선별파쇄골재와 산림골재가 전체 채취량의 약 88% 차지하고 있다. 경기도가 광역시도에서는 골재를 가장 많이 채취하였으며, 그 다음으로 경상남도, 충청북도, 강원도 충청남도, 인천광역시의 순이다. 2020년에는 231개 시군구의 약 67%인 153개 시군구에서 골재를 채취하였으며, 38개 시군구에서 100만 m3 이상의 골재를 채취하였으며, 채취량은 전국 채취량의 65%인 약 8,567만 m3이다. 2020년도에는 약 1040여개소의 채취장이 운영되었으나 실제 골재를 채취한 채취장은 약 889개 채취장으로 선별파쇄장이 약 415개소로 가장 많으며, 산림골재, 육상골재장은 200개소 내외이다. 100만 m3 이상을 채취한 채취장은 14개 채취장이며, 1만 m3 이하의 소규모 채취장도 약 126개소이다. 약 420여개의 허가채취장에서 허가기간은 최장 32년에서 최소 2개월이며, 허가 잔여기간을 보면 2021년 이후 채취가능한 채취장이 약 55% 이며, 2020년 수준의 허가 골재채취물량을 유지하기 위해서는 최소한 200여개 이상의 채취장에 대해 허가연장, 신규허가가 필요할 것이다.
In 2020, about 132 million m3 of aggregate was produced in Korea. Of the total domestic aggregates produced in 2020, about 33.3 % was sand and about 66.7% was gravel. It estimated that of the 132 million m3 of aggregates in Korea in 2020, about 52% was produced by screening crushed aggregate, by 36%...
In 2020, about 132 million m3 of aggregate was produced in Korea. Of the total domestic aggregates produced in 2020, about 33.3 % was sand and about 66.7% was gravel. It estimated that of the 132 million m3 of aggregates in Korea in 2020, about 52% was produced by screening crushed aggregate, by 36% by forest aggregate, 3% by land aggregate, 5.6% by sea aggregate and 2.5% by washing each other, and 0.4% by river aggregate. This indicates that screening crushed aggregate and forest aggregate are the main producers of domestic aggregates. Leading producing metropolitan cities were Gyeonggi-do, Gyeongsangnam-do, Chungcheongbuk-do, Gangwon-do, Chungcheongnam-do, Incheon in order decreasing volume, which together accounted for about 72.4% of total product. In 2020, aggregates were produced in 153 cities, about 67% of the 231 cities of Korea, 38 local governments have developed aggregates of more than 1 million m3, and the combined production of the 38 cities accounted for about 65% of national total. This means that the aggregate extraction trend of local governments is becoming larger and more concentrated. In 2020, at 153 local governments, a total of 889 operations produced aggregates with 420 operations by permission, 469 operations by declaration. A review of production by size of operation indicated that about 17 million m3 (12.8% of the total aggregate) was produced by 14 operations reporting production of more than 1 million m3. In about 420 operations, the maximum period of permit is 32 years to at least 2 months. When the remaining period of permit is taken into account, only about 55% of active operations can be developed the aggregate after 2021. In order to maintain the permitted aggregate volume by 2020 level, it will be necessary to obtain an extension permit or find new operation sites for at least 200 or more operations.
In 2020, about 132 million m3 of aggregate was produced in Korea. Of the total domestic aggregates produced in 2020, about 33.3 % was sand and about 66.7% was gravel. It estimated that of the 132 million m3 of aggregates in Korea in 2020, about 52% was produced by screening crushed aggregate, by 36% by forest aggregate, 3% by land aggregate, 5.6% by sea aggregate and 2.5% by washing each other, and 0.4% by river aggregate. This indicates that screening crushed aggregate and forest aggregate are the main producers of domestic aggregates. Leading producing metropolitan cities were Gyeonggi-do, Gyeongsangnam-do, Chungcheongbuk-do, Gangwon-do, Chungcheongnam-do, Incheon in order decreasing volume, which together accounted for about 72.4% of total product. In 2020, aggregates were produced in 153 cities, about 67% of the 231 cities of Korea, 38 local governments have developed aggregates of more than 1 million m3, and the combined production of the 38 cities accounted for about 65% of national total. This means that the aggregate extraction trend of local governments is becoming larger and more concentrated. In 2020, at 153 local governments, a total of 889 operations produced aggregates with 420 operations by permission, 469 operations by declaration. A review of production by size of operation indicated that about 17 million m3 (12.8% of the total aggregate) was produced by 14 operations reporting production of more than 1 million m3. In about 420 operations, the maximum period of permit is 32 years to at least 2 months. When the remaining period of permit is taken into account, only about 55% of active operations can be developed the aggregate after 2021. In order to maintain the permitted aggregate volume by 2020 level, it will be necessary to obtain an extension permit or find new operation sites for at least 200 or more operations.
Hong, S.S., Kim, J.Y. and Lee, J.Y. (2015) Trends of supply and demand of aggregate in Korea(I). Jour.Petro.Soc.Korea, v.24, p.253-272. doi: 10.7854/JPSK.2015.24.3.253
Hong, S.S. and Lee, J.Y. (2020) Analysis of 2019 domestic aggregate production in Korea(I). Korea Econ. Environ. Geol., v.53, p.755-769. doi: 10.9719/EEG.2020.53.6.755
Hong, S.S. and Lee, J.Y. (2021) Analysis of 2019 domestic aggregate production in Korea(II). Korea Econ. Environ. Geol., v.54, p.427-439. doi: 10.9719/EEG.2021.54.4.427
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