• Title/Summary/Keyword: 에너지 정의

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DFT Study for the Thermodynamic Stability and Binding Energeticsof SnOn, SnO2n, SnO3n (n = 1~4) (SnOn, SnO2n, SnO3n (n = 1~4)의 열역학적 안정성과 결합에너지에 대한 DFT 이론 연구)

  • Kim, Si-Jo;Kim, Seung-Joon
    • Journal of the Korean Chemical Society
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    • v.53 no.5
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    • pp.512-520
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    • 2009
  • The theoretical calculations for $S_nO_n,\;S_nO_{2n},\;S_nO_{3n}\;(n\;=\;1{\sim}4)$ have been considered at the B3LYP level of theory with various basis sets. The optimized geometries, harmonic vibrational frequencies, and binding energies are evaluated to elucidate the thermodynamic stability and spectroscopic properties. The harmonic vibrational frequencies for the molecules considered in this study show all real numbers implying true minima. The binding energies due to increasing of $S_nO_n,\;S_nO_{2n},\;S_nO_{3n}$ monomers are calculated at the MP2/6-311G** level of theory. For $S_nO_n\;(n\;=\;1{\sim}4)$, the binding energy difference is about 20∼25 kcal/mol by adding SO monomer. For $SO_2\;and\;SO_3\;(n\;=\;1{\sim}4)$, the binding energy differences are relatively small by comparing to $S_nO_n$.

Evaluation of Hydrometeorological Components Simulated by Water and Energy Balance Analysis (물수지와 에너지수지 해석에 따른 수문기상성분 평가)

  • Ji, Hee Sook;Lee, Byong Ju;Nam, Kyung Yeub;Lee, Chul Kyu;Jung, Hyun Sook
    • Journal of Korea Water Resources Association
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    • v.47 no.1
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    • pp.25-35
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    • 2014
  • The objective of this study is to evaluate TOPLATS land surface model performance through comparison of results of water and energy balance analysis. The study area is selected Nakdong river basin and high resolution hydrometeorological components of which spatio-temporal resolution is 1 hr and 1 km are simulated during 2003 to 2013. The simulated daily and monthly depth of flows are well fitted with the observed one on Andong and Hapcheon dam basin. In results of diurnally analysis of energy components, change pattern throughout the day of net radiation, latent heat, sensible heat, and ground heat under energy balance analysis have higher accuracy than ones under water balance analysis at C3 and C4 sites. Especially, root mean square errors of net radiation and latent heat at C4 site are shown very low as 22.18 $W/m^2$ and 7.27 $W/m^2$, respectively. Mean soil moisture and evapotranspiration in summer and winter are simulated as 36.80%, 33.08% and 222.40 mm, 59.95 mm, respectively. From this result, when we need high resolution hydrometeorological components, energy balance analysis is more reasonable than water balance analysis. And this results will be used for monitor and forecast of weather disaster like flood and draught using spatial hydrometeorological information.

Study on Energy Performance And Economic Evaluation of Windows System with Built-in Type Blinds (블라인드 내장형 창호시스템의 에너지 성능 및 경제성 평가에 관한 연구)

  • Joe, Won-Hwa;Lim, Nam-Gi
    • Journal of the Korea Institute of Building Construction
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    • v.10 no.2
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    • pp.97-104
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    • 2010
  • This study evaluated the energy efficiency of a windows system using built-in blinds, with regard to their insulation performance and their blocking of solar radiation. The study took advantage of the "Physibel Voltra" program as a physical simulation of heat transfer. To simulate the "Physibel Voltra" program, I practiced a mock-up test to determine heating quality and translation condition. I analyzed the propensity to annual energy consumption, the annual quantity of heat transfer, and the annual cooling and heating cost through a computer simulation for one general household in an apartment building. In the test, it was found that compared to a general windows system, a windows system with built-in blinds reduced the annual heat transfer by 10% in cooling states and by 11% in heating states when the blind was up. When the blind was down, the windows system with built-in blinds reduced the annual heat transfer by 25% in cooling states and 30% in heating states. When a windows system with built-in blinds is compared with a general windows system, the quantity of cooling and heating loads is reduced by 283.3kw in cooling states and 76.3kw in heating states. This leads to a reduction in the required cooling and heating energy of 359.6kw per house. It is thus judged that the use of a windows system with built-in blinds is advantageous in terms of reducing greenhouse gas emissions, because the annual TOE (tons of oil equivalent) per house is reduced by 0.078TOE, while $tCO_2$ is reduced by $0.16tCO_2$. In addition, compared with a general windows system, the cost of cooling and heating loads in the system reduces the annual cooling cost by 100,000won, and the annual heating cost by 50,000won. Ultimately, this means that cooling and heating loads are cut by 150,000won per year.

Variation of Indoor Average Ozone Concentration within the Radiation Therapy Room by High Energy Radiation (고 에너지 방사선에 기인된 방사선치료실 내 평균 오존 농도의 변화)

  • Lee, Jin-kook;Lee, Hyo-Yeong;Im, In-Chul;Yu, Yun-Sik
    • Journal of the Korean Society of Radiology
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    • v.10 no.3
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    • pp.171-180
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    • 2016
  • This study was to evaluate the change in characteristics of concentration of ozone after exposure to high energy radiation in linac room. Background ozone concentration of linac room was measured and compared to ozone concentration around linac room. Background ozone concentration of linac room was mean $17.4{\pm}7.9ppb$. It was 50% of the ozone concentration($36.8{\pm}22.3ppb$) around linac room(p<0.05). The concentration of ozone after exposure to high energy radiation in linac room was elevated to double of background ozone level, intensity after exposure. with exposure time concentration of ozone increased proportionally. It showed maximum level at 130~180seconds and slowed a tendency to saturate. It required more than 10 minutes for ozone concentration in linac room to drop to ozone concentration around linac room. The concentration of ozone after exposure to high energy radiation is high enough to cause specific physical symptoms, such as acute dyspnea or chest pain due to dry cough. Exposure to high concentration of ozone in sealed linac room can aggravate pulmonary disease, so special attention is needed.

A Study on the Application of BIPV for the Spread of Zero Energy Building (제로에너지 건축물 확산을 위한 건물 일체형 태양광 적용방안 연구)

  • Park, Seung-Joon;Jeon, Hyun-Woo;Lee, Seung-Joon;Oh, Choong-Hyun
    • Journal of Digital Convergence
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    • v.19 no.9
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    • pp.189-199
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    • 2021
  • In order to increase the self-reliance rate of new and renewable energy in order to respond to the mandatory domestic zero-energy buildings, the taller the building, the more limited the site area, and installing PV modules on the roof is not enough. Therefore, BIPV (Building integrated photovoltaic, hereinafter BIPV) is the industry receiving the most attention as a core energy source that can realize zero-energy buildings. Therefore, this study conducted a survey on the problems of the BIPV industry in a self-discussing method for experts with more than 10 years of experience of designers, builders, product manufacturers, and maintainers in order to suggest the right direction and revitalize the BIPV industry. Industrial problems of BIPV adjustment are drawn extention range of standard and certification for products, range improvement for current small condition of various kind productions, need to revise standards for capable of accomodating roof-type, color-module and louver-module, necessary of barrier in flow of foreign modules into korea through domestic certification mandatory, difficulty in obtaining BIPV information, request to prevent confusion among participants by exact guidelime about architectural application part of BIPV, and lack of the BIPV definition clearness, support policy, etc. Based on the improvements needed for the elements, giving change and competitiveness impacts aims to present and propose counter measures and direction.

Projection of Future Heating and Cooling Degree Days over South Korea under the IPCC SRES Scenarios: An Experiment with CCSM3 and MM5 Models (IPCC SRES 시나리오에 따른 우리나라의 미래 냉난방도일 전망: CCSM3와 MM5 모델 활용)

  • Choi, Jin Young;Song, Chang Kun;Kim, Deok Rae;Hong, Sung Chul;Hong, Yoo Deog;Lee, Jae Bum
    • Journal of Climate Change Research
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    • v.4 no.2
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    • pp.141-158
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    • 2013
  • In this study, the projection of future heating and cooling degree days (HDDs and CDDs) has been conducted over South Korea for the period 1996~2005 with 2046~2055 and 2091~2100, using CCSM3 and MM5 simulations driven by the six IPCC SRES emission scenarios (A2, A1B, A1FI, A1T, B1, and B2). Annual mean surface air temperature increases by $1.2{\sim}3.4^{\circ}C$ at the end of the 21st century comparing to the present-day (1996~2005) in South Korea. HDDs decrease by 8~25% and CDDs increase up to 242~1,448% with corresponding changes in temperature. These increases and decreases also change the duration of HDDs and CDDs. HDDs duration decreases by 1 month, while the expansion of CDDs duration is much longer than 2 months. Thus, projected future HDDs and CDDs changes appear that cooling energy demand in summer season would increase and heating energy demand in winter would decrease in the future. Especially, these remarkable changes would be obvious at high mountain area, Gangwon-do and at south area, Jeju island. In the sense of future energy supply and policy, electrical energy for cooling in summer could be getting much more its importance rather than fossil energy used for heating in winter.

A Preliminary Study on Energy Consumption Analysis in Storage Space for Exhibition Facility by using Absorption Material (조습재 사용에 따른 전시시설 수장고의 에너지 사용량 분석에 대한 기초연구)

  • Kim, Jinhwan;Hong, Taehoon;Jeong, Kwangbok
    • Korean Journal of Construction Engineering and Management
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    • v.20 no.2
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    • pp.53-59
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    • 2019
  • As solve the shortage problems of storage space for exhibition facilities, the South Korean government is establishing plans to expand storage space for exhibition facilities. From a medium- to long-term perspective, an energy-efficient storage space for exhibition facility is needed to implement efficient state budget execution and achieve national greenhouse gas reduction goals. In this regard, this study analyzed the energy consumption of storage space for exhibition facilities according to the use of absorption materials. To this end, a case study was conducted on 12 storage spaces for exhibition facilities in South Korea. Compared to the storage space using the absorption material, the storage space without using the absorption material showed an increase in HVAC system operation time by 47.50% during summer periods and 58.85% in non-summer periods. In particular, the analysis found that in the case of storage for 'H' exhibition facility, the energy cost was reduced by 2,721,700 won/year after remodeling work using the absorption material. It is expected that the findings of this study can help the government and the person in charge from construction companies to construct energy-efficient storage space room for exhibition facilities.

Integrity evaluation of rock bolts in the field by using hammer-impact reflection method (해머 타격 반사법을 이용한 현장 록볼트 건전도 평가)

  • Yu, Jung-Doung;Bae, Myeong-Ho;Lee, Yong-Jun;Min, Bok-Ki;Lee, In-Mo;Lee, Jong-Sub
    • Journal of Korean Tunnelling and Underground Space Association
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    • v.11 no.1
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    • pp.47-56
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    • 2009
  • Rock bolts and shotcrete play a crucial role as a main support system in the underground space. Thus, the safety of the underground space may be affected by the defect of rock bolts. In order to evaluate the rock bolt integrity by using non-destructive technique, the transmission method of the guided ultrasonic waves, which are generated by using the piezo disk elements has been successfully performed. The energy generated by the piezo disk elements, however, is not enough for the rock bolts in the field. In addition, the piezo disk elements should be installed at the end of the steel bar during construction of the rock bolts. The purpose of this study is the devolvement of the reflection method, which may generate enough energy, and the application in the field rock bolts. Both laboratory and field tests are carried out. The guided ultrasonic waves with high energy are generated by the hammer impact with the center punch, and the AE sensor is used to measure the reflected guided waves. The received guided waves are analyzed by the wavelet transform. The peak value of the wavelet transform produces the energy velocity, which is used for the evaluation of the rock bolt integrity. The energy velocity increases with an increase in the defect ratio in both laboratory and field rock bolts. This study demonstrates that the hammer-impact reflection method may be a suitable method for the evaluation of the rock bolt in the field.

Development of Filter Sorting Process for Cigarette Butt Recycling and Extraction of Cellulose Acetate (담배꽁초 재활용을 위한 필터 선별공정 개발 및 셀룰로오스 아세테이트의 추출)

  • Minseon Park;Minjung Jung;Noh-sup Lee;Soochul Rhee;Namhoon Lee
    • Journal of the Korea Organic Resources Recycling Association
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    • v.32 no.2
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    • pp.5-14
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    • 2024
  • A study approached the development of a process for efficiently recycling discarded cigarette butts, reported as a major source of microplastic pollution in aquatic environments. Cigarette butts were sorted to extract filters, and cellulose acetate, the raw material of the filters, was extracted to a high degree of purity. The sorting of filters from cigarette butts was conducted through both wet and dry processes, each with optimized sorting conditions. Wet stirring sorting considered factors such as solid-liquid ratio, stirring speed, and stirring temperature. The highest efficiency of wet stirring sorting, at 46.21%, was observed with a solid-liquid ratio of 1:45, stirring speed of 200 rpm, and stirring temperature of 50℃. Dry wind power sorting took into account moisture content and residence time. The filter sorting efficiency reached its peak at 57.10% with a moisture content of 20% and a residence time of 5 minutes. There was no significant difference in the recovery rate of cellulose acetate between the two sorting processes. Dry wind power sorting was deemed a more advantageous process in terms of energy and environmental considerations within the scope of this study.

China's Wind Energy Development and the Socio-political Conditions for Energy Transition: Focusing on Norm Promotions by Transnational Actors (중국 풍력발전 사례를 통한 에너지전환의 정치사회적 조건 연구: 초국가 행위자의 규범확산 활동을 중심으로)

  • Kyu Youn Choi
    • The Journal of Learner-Centered Curriculum and Instruction (JLCCI)
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    • v.23 no.1
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    • pp.197-241
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    • 2019
  • The rapid development of China's wind energy sector was facilitated by a number of transnational actors including organisations for international cooperation and international environmental organisations. This paper explores their evolving roles at different development stages in order to extend our understanding of the socio-political conditions for energy transition. Employing the framework of norm diffusion theories, this study focuses on the transnational advocacy group supporting wind energy for environmental purposes and analyses their norm promotion activities in interaction with domestic proponent as well as opponent groups. This analysis shows that the transnational actors successfully laid the foundation for the commercial wind energy development throughout the 1990s but experienced marginalisation during the sector expansion due to the dominance of the central government and its protectionist industrial policy. As the domestic opponent groups caused high-level wind curtailment in the 2010s, the international advocacy group has increasingly conducted offensive norm promotion activities. This case of the Chinese wind energy development suggests that the international transfer of technology and policy measures in combination with the mobilisation of economic resources support the growth of the wind energy sector, which nonetheless suffers lacking influence of environmental norms and faces conflicts with the traditional players of the electricity sector. Based on these findings, this study concludes that the key socio-political condition for energy transition is the formation of a power configuration which facilitates the effectiveness of environmental norms and thus confronts the powerful opponents of wind energy.