http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
한반도(韓半島) 옥천대(沃川帶) 탄질이암층중(炭質泥岩層中)의 저품위(低品位) 우라늄광(鑛)의 부존상태(賦存狀態) 및 우라늄, 바나듐 회수공정개발연구(回收工程開發硏究) ( I )
소칠섭,최청송,So, Chil-Sup,Choi, Cheong-Song 대한자원환경지질학회 1984 자원환경지질 Vol.17 No.1
Combined mineralogical and geochemical studies were made on two hundred eighty one representative samples from uraniferous coaly meta-pelites of the Ogcheon metamorphic terrain. Different mineral occurrence of the areas investigated should be taken into account for chemical processes for uranium extraction. Secondary uranium minerals identified are metauranocircite, metatorbernite and autunite. These are disseminated mostly on the laumontites which infused and filled secondary openings in the coaly matrix, and are often closely associated with iron oxides. The uranium distribution show distinctly log normal. Geochemical correlation coefficient of uranium and organic carbon displays +0.624~+0.796. The relationship of the major components to uranium can be expressed by the following regression equation: Log $(U_3O_8{\times}10^4)$=1.40117-0.00076 (quartz) -0.00118 (muscovite) +0.00235 (biotite) +0.00323 (other silicates) - 0.01114 (apatite) +0.01124 (hematite) +0.00149 (limonite) -0.01823 (opaques)+0.03049 (organic carbon). Uranium in the coaly meta-pelites of the Ogcheon Group was deposited together under same physico-chemical environmental conditions. There is a considerable variation in the ${\delta}^{34}S$ values (11.2~16.8 per mil) of the pyrites from the U-bearing meta-pelites, which implies sedimentary origin. The two U-bearing coaly rocks analyzed have ${\delta}^{13}C$ values between -16.88~-18.00 per mil, which suggests organic.
염화제이철 수용액에서 섬아연광의 용해에 관한 속도론적 연구
유승준,박형상,최청송,소칠섭,Yoo, Seung-Joon,Park, Hyung-Sang,Choi, Cheong-Song,So, Chil-Sup 대한자원환경지질학회 1993 자원환경지질 Vol.26 No.3
Dissolution reactions of chemical grade zinc sulfide and natural sphalerite were studied in ferric chloride solution as an oxidant. To enhance the leaching reaction, ultrasonic technique was employed in this investigation. For the reaction with pure zinc sulfide, chemical reaction was the rate limiting step in the range of low conversion irrespective of applying ultrasonic wave. And the diffusion through liquid film instead of diffusion through product layer of free sulfur was the rate determining step because ultrasonic vibration removes the product from reaction zone. In the case of sphalerite with the ultrasonic vibrator, it was found that inert mineral layer diffusion was the rate determining step, in which the elemental sulfurs formed were removed by the ultrasonic action. Experimental results showed that the ultrasonic technique proved to be the methods which can significants improve the leaching performance.
침전법으로 제조된 전구체 성질에 의한 LiCoO<sub>2</sub>의 특성에 관한 연구
정명국,황치석,최청송,Jeong, Myoung Kuk,Hwang, Chi Seok,Choi, Cheong Song 한국청정기술학회 2006 청정기술 Vol.12 No.2
본 연구에서는 수산화물 전구체로부터 HT-$LiCoO_2$ 분말을 제조하였다. 사용된 $Co(OH)_2$는 ${\alpha}$상 및, 또는 ${\beta}$ 상의 수산화물이며 여러 조건에서 침전법으로 제조되었다. 제조시에 $[OH^-]/[CO^{2+}]$ 농도 비와 숙성시간을 조절함으로써 원하는 특성을 지닌 $Co(OH)_2$ 제조가 가능하였다. 침전법으로 합성한 $Co(OH)_2$와 LiOH를 메탄올 수용액을 이용하여 혼합한 후 이어서 증발, 건조 그리고 숙성 조작에 의하여 HT-$LiCoO_2$의 전구체를 합성하였다. 숙성기간에 tailor-made ${\beta}$-phase $Co(OH)_2$는 CoOOH로 변환되면서 고용체를 형성한다. 이 같은 결과로 HT-$LiCoO_2$가 낮은 온도($600^{\circ}C$), 짧은 시간(10분)에 합성이 가능하게 된다. HT-$LiCoO_2$ powders were synthesized from hydroxide precursors in this study. The cobalt hydroxide compounds with hydrotalcite-like(${\alpha}$-phase) and/or brucite-like(${\beta}$-phase) structures as a component of the precursor were prepared in various PH conditions using precipitation method. It was found that various phase and compositions of cobalt hydroxides could be tailor-prepared via a careful control of preparation parameters such as the concentration ratio of $[OH^-]/[CO^{2+}]$ and aging time. The hydroxides $Co(OH)_2$ and LiOH were mixed with aqueous methyl-alcohol. The precursor of a HT-$LiCoO_2$ was synthesized via subsequent processes including evaporation, drying and aging. The transformation of tailor-made ${\beta}$-phase $Co(OH)_2$ to CoOOH and formation of solid solution in the precursor were achieved during aging. These results cause HT-$LiCoO_2$ to be synthesized at low temperature($600^{\circ}C$ ) for a short time(10min).