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원동(院洞) Fe-Pb-Zn 스카른광상의 물리화학적(物理化學的) 특징(特徵)
장호완,장병욱,Chang, Ho Wan,Chang, Byung Uck 대한자원환경지질학회 1992 자원환경지질 Vol.25 No.1
The Wondong Fe-Pb-Zn deposit is located in endo and exoskarns formed along the contact between the Makkol limestone interbedding pelitic limestone of Ordovician age and quartz porphyry of Cretaceous age. At the Wondong mine, the endoskarn shows a discontinuous zonal arrangement from quartz porphyry to pelitic limestone as follows: unaltered quartz porphyry, weakly altered quartz porphyry zone, intensively altered pinkish quartz porphyry zone, garnet zone, and greyish white and fine-grained clinopyroxene zone developed at pelitic limestone side. In terms of chemical mass balance, intensively altered pinkish quartz porphyry relative to unaltered quartz porphyry shows substantial enrichments in $K_2O$, $Na_2O$, and HREE and depletions in MgO, CaO, total $Fe_2O_3$, and LREE. On the other hand, garnet zone of endoskarn is enriched in CaO, MnO, total $Fe_2O_3$, MgO and depleted in $K_2O$, $Na_2O$. $Al_2O_3$ seems to be determining inert component. Thus the behavior of elements indicates that the mobility of elements depends on the equilibration of hydrothermal fluid and minerals and affects on enrichments by fractionation from and depletions by partition to hydrothermal fluid, respectively. Traversing toward pelitic limestone from a central zone of exoskarn, the exoskarn also shows a zonal arrangement as follows: garnet zone, clinopyroxene zone, and decolored pelitic limestone. The arrangement of mineral assemblages in skarns of the Wondong mine is the result of an increase in CaO and $K_2O$ toward the pelitic limestone. Skarn and ore minerals were formed in the following sequence: early skarn, late skarn and magnetite, pyrite, sphalerite, galena, and molybdenite. On the basis of stabilities of mineral assemblages, physicochemical conditions of the late skarn and magnetite mineralization are estimated to be $350^{\circ}C{\leq}T{\leq}400^{\circ}C$ at 1 Kb, $-23{\leq}log\;fO_2{\leq}-18$, and $0.005{\leq}XCO_2{\leq}0.01$, while those of the early skarn to be $420^{\circ}C{\leq}T{\leq}550^{\circ}C$ at 1 Kb.
장병욱,장호완,정창식,Chang, Byung Uck,Chang, Ho Wan,Cheong, Chang Sik The Korean Society of Economic and Environmental G 1995 자원환경지질 Vol.28 No.1
Based upon the lead isotopic compositions of the galenas collected from Pb-Zn ore deposits distributed in the eastern and southern parts of the Gyeongsang basin, we investigated what kinds of source materials were involved in the formation of these ore deposits and compared the lead isotopic characteristics of these ore deposits with those of the ore deposits in the Taebaegsan area. The isotopic compositions of the common leads from Pb-Zn ore deposits in the Gyeongsang basin show the variation with the relatively limited range ($^{206}Pb/^{204}Pb=18.156{\sim}18.377$, $^{207}Pb/^{204}Pb=15.482{\sim}15.638$, and $^{208}Pb/^{204}Pb=37.953{\sim}38.605$). They are plotted on or below ore lead growth curve(Cumming & Richards, 1975) and average crustal lead evolution curve (Stacey & Kramer, 1975). In the plumbotectonic model IV(Zartman & Haines, 1988), they are plotted between the evolution curves of mantle and orogene. But the lead isotopic compositions of the common leads in the Taebaegsan area are plotted on and above upper crust curve. Considering the above-mentioned lead isotopic characteristics, the linear trend shown in the isotopic compositions of the common leads in the Gyeongsang basin can be considered as the mixing isochron between high radiogenic crustal materials such as the Ryongnam massif and low radiogenic materials derived from depleted mantle or materials with relatively low U/Pb and Th/U ratios. 경상분지의 동부와 남부에 분포하는 연 아연광상에서 산출되는 방연석의 납 동위원소 비로부터 광상을 형성한 납이 어떤 기원물질로부터 유래하였는가를 연구하고, 이를 태백산 광화대 내 일부광상들의 납 동위원소 비와 비교 연구하였다. 경상분지내 연 아연광상들의 보통납(common lead) 의 동위원소 비는 $^{206}Pb/^{204}Pb=18.156{\sim}18.377$, $^{207}Pb/^{204}Pb=15.482{\sim}15.638$, $^{208}Pb/^{204}Pb=37.953{\sim}38.605$로서 매우 제한된 영역의 변화를 보인다. 또한 납 동위원소 비들은 광상 납 성장곡선(Cumming과 Richards, 1975)과 평균지각 납 진화곡선(Stacey 와 Kramer, 1975) 의 선상 혹은 하부에 점시 되어 맨틀성분의 개입이 많음을 지시하는 반면, 태백산 광화대의 경우는 진화곡선 상부에 점시 되어 지각 물질의 개입이 많음을 나타내었다. Plumbotectonics Model IV (Zartman과 Haines, 1988)에서는 경상분지의 납들은 대부분 맨틀과 조산대 사이의 영역에, 태백산 광화대의 자료들은 대부분 상부지각선의 선 상이나 그 상부에 점시 된다. 위와같은 납 동위원소 조성이 보여주는 특징과 더불어 경상분지 보통납의 동위원소 비들이 나타내는 선형관계는 낮은 U/Pb와 Th/U의 비를 갖는 기원물질 혹은 결핍맨틀(depleted mantle) 물질과 기반암과 같은 지각 물질간의 혼염에 의한 혼합 아이소크론(mixing isochron)으로 추정된다.
Song, Myeong-Han,Chang, Byung-Uck,Kim, Yong-Jae,Lee, Hwa-Yong,Heo, Dong-Hey The Korean Association for Radiation Protection 2010 방사선방어학회지 Vol.35 No.4
The effective dose of the Seoul subway staffs due to inhaled radon ($^{222}Rn$) in their workplace was investigated depended on radon concentration exposed at each workplace, and working hours and working types of the staffs. Annual average radon concentrations ranged from 16.5 to 93.0 $Bq{\cdot}m^{-3}$. The staffs commonly spend 2,304 hours in the underground spaces a year. With the radon concentrations and the working hours of the staffs, estimated annual effective doses ranged from 0.23 to 0.73 $mSv{\cdot}y^{-1}$.
Radon exposure assessment for underground workers: a case of Seoul Subway Police officers in Korea.
Song, Myeong Han,Chang, Byung-Uck,Kim, Yongjae,Cho, Kun-Woo Nuclear Technology Pub 2011 Radiation protection dosimetry Vol.147 No.3
<P>The objective of this study is the systematic and individual assessment of the annual effective dose due to inhaled radon for the Seoul Subway Police officers, Korea. The annual average radon concentrations were found to be in the range of 18.9-114 Bqm(-3) in their workplaces. The total annual effective doses which may likely to be received on duty were assessed to be in the range of 0.41-1.64 mSvy(-1). These were well below the recommended action level 10 mSvy(-1) by ICRP. However, the effective doses were higher than subway station staff in Seoul, Korea.</P>
Lead Isotopic Study on the Dongnam Fe-Mo Skarn Deposit
장호완,정창식,박희인,장병욱,Chang, Ho Wan,Cheong, Chang Sik,Park, Hee In,Chang, Byung Uck The Korean Society of Economic and Environmental G 1995 자원환경지질 Vol.28 No.1
동남 스카른 광상은 백악기에 고생대 퇴적암류를 관입한 섬록암에 의해 형성되었다. 스카른의 모암은 섬록암과 묘봉 슬레이트인데 스카른 누대구조에서 모암의 종류에 따라 각각 특징적인 광물공생군의 체계적 변화를 관찰할 수 있다. 섬록암, 화강반암, 석영반암으로 구성된 화성암류들은 플룸보텍토닉 모델의 조산대에 비해 높은$^{207}Pb/^{204}Pb$ 비를 보이는데 이러한 현상은 하부지각 (또는 맨틀)에서 유래된 마그마가 상부지각물질에 의해 심히 혼화되어진 것으로 해석되며 이는 영남육괴와 옥천계에 분포하는 화강암류가 보여주는 특징과 유사하다. 현재의 납 동위원소 비와 우라늄, 토륨, 납 농도로부터 구한 광화작용 당시(76 Ma)의 황성암 및 풍촌석회암의 납 동위원소 비는 비교적 일정하지만 광화작용 후기로 갈수록 광석광물들의 납 동위원소 비가 높아진다. 초생 스카른 시기에 형성된 자철석과 방연석의 납 동위원소 비는 화성암류의 것과 거의 유사하지만 후기 열수변질시기에 형성된 휘수연석, 황철석, 그리고 열수변질된 석영반암의 납 동위원소 비는 풍촌석회암의 비에 접근하고 있다. 이는 서로 다른 기원을 가진 납들이 열수 변질시기에 따라 그 혼화의 정도가 달라지게되어 광석광물들의 납 동위원소 비에 차이가 있게 된 것으로 여겨진다. 광석광물의 납 동위원소 비의 변화특징에 의하여 섬록암과 화강반암을 형성한 마그마로부터 분화된 낮은 납 동위원소 비를 갖는 열수용액과 높은 납 동위원소 비를 갖는 주변모암(풍촌석회암)이 혼화의 기원물질로 판단된다. In Dongnam area, Cretaceous igneous rocks, such as diorite, porphyritic granite, and quartz porphyry intruded Paleozoic sedimentary rocks, such as Myobong slate and Pungchon limestone. The Dongnam Fe-Mo skarn deposits were imposed on the diorite(endoskarn) and the Myobong slate(exoskarn). The ore deposits consist mainly of magnetite and molybdenite with small amounts of sulfides, such as galena, sphalerite, pyrite, chalcopyrite, and pyrrhotite. The igneous rocks show nearly constant $^{206}Pb/^{204}Pb(18.80{\sim}19.06)$ and $^{207}Pb/^{204}Pb(15.71{\sim}15.72)$ ratios. Their $^{207}Pb/^{204}Pb$ ratios higher than the typical ratios of orogene suggest that the igeneous rocks were formed from lower crust(or mantle) - derived magma excessively contaminated by upper crustal materials such as high radiogenic Precambrian basement rocks. The lead isotopic compositions of the igneous rocks, the Pungchon limestone, and the ore minerals show a well defined linear in $^{206}Pb/^{204}Pb$ - $^{207}Pb/^{204}Pb$ plot. The lead isotopic compositions of the igneous rocks are similar to those of magnetite and galena, which were formed at early skarn stage and significantly lower than those of altered quartz porphyry, molybdenites, and pyrite, which were formed at late epithermal alteration stage. Considering the systematic variation of the lead isotopic compositions in the ore minerals according to hydrothermal stages, the variation may be due to a relative variation in surrounding rock(Pungchon limestone) involvement in hydrothermal ore solution leaching the surrounding rock. Therefore, the variation of the lead isotopic compositions in ore minerals can be modeled in terms of the mixing of the leads derived from the igneous rocks as low radiogenic source and the surrounding rock(Pungchon limestone) as high radiogenic source.