• 한국가구학회지
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• 제29권1호
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• pp.40-48
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• 2018

This study analyzes the contribution of hanok that construction in reducing greenhouse gas (GHG) emissions in Korea by calculating the carbon storage of hanoks and comparing it to different housing types in Korea. The hanok is a traditional Korean house. And it were first designed and built in the $14^{th}$ century during thd Joseon Dynasty. According to our results, the number of hanoks in 2016 was approximately 547,085 which was accounting for 7.8% of the total construction market, This study found Gyeongbuk with 95,083, Jeonnam with 88,981, Gyeongnam with 76,388 and Seoul with 43,519 hanoks. According to the GHG Inventory Report for 2016, Korea's total annual GHG emissions amounted to 650 million $tCO_2$, with the carbon stocks in hanoks amounting to 19.2 million $tCO_2$. This accounts for 2.8% of Korea's total GHG emissions and 46.1% of the carbon absorbed by forests. Our results show that hanoks store four times more carbon than light-frame-wood-houses, and 15 times more carbon than concrete-reinforced and steel-frame houses. The main factors causing the hanok industry slowdown are the high construction costs, lack of government support, and insufficient knowledge of hanok architecture. Therefore, to further increase the carbon stock of hanok, more research is needed to improve the technical use of wood and reduce construction of the hanok and prepare legal and institutional arrangements related to hanok industry.

• 환경정책연구
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• 제9권3호
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• pp.47-67
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• 2010

본고에서는 탄소생산성(환경경제효율)이 미래 저탄소사회에서 기업이 지속가능한 발전을 달성하기 위한 환경전략의 목표가 될 수 있는지를 확인하기 위해 탄소생산성과 기업의 재무성과 간에는 어떠한 관련성이 있는지를 실증적으로 분석하고자 하였다. 분석 결과를 요약하면 첫째 탄소생산성이 높은 기업일수록 재무성과가 향상되는 것으로 나타났다. 탄소생산성(환경효율) 개념을 수정 보완한 Factor-X지표도 재무성과에 유의한 양의 영향을 미치는 것을 보여주었다. 둘째 재무성과가 양호한 기업일수록 차기의 탄소생산성도 개선될 것이라는 가설도 지지되었다. 그러나 탄소생산성과 재무성과 간에 장기적 영향(효과)은 나타나지 않았다. 끝으로 산업특성(에너지다소비산업 여부)에 따라 탄소생산성과 재무성과의 관련성이 달라진다는 사실도 확인되었다.

• Journal of Forest and Environmental Science
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• 제29권4호
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• pp.249-256
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• 2013

The aim of the study was to reveal the scope and benefits derives from establishing carbon forests in a country like Bangladesh. Carbon forestry is the modernized forestry practice that evolves no cutting of trees or vegetation rather conserves them in the wood. Trees might be the source of carbon sink at large scale by establishing carbon forests. To find out how and in what extent forests of Bangladesh could contribute to global emission reduction, tree species of economic importance were taken into account about their carbon sequestration potential. Data source was a secondary one. Bangladesh has subtropical evergreen and deciduous forest tree species. Here trees can sequester almost 45-55 percent organic carbon in their biomass. On an average, trees in different types of stands can sequester 150-300 tC/ha. Carbon value of these forests might be 7,500-15,000 USD per hactre (assuming 50 USD per equivalent $tCO_2$). Thus, accounting tree carbon credits of total forested lands of Bangladesh, there might be a lump sum value of $1.89{\times}10^{10}-3.79{\times}10^{10}$ USD. If soil carbon is added, this amount would jump. Alternatively, there are two times higher spaces as marginal lands than this for starting carbon forestry. However, carbon forestry concept is still a theoretical conception unless otherwise their challenges are addressed and solved. Despite of this, forests of Bangladesh might be the key showcase for conserving biodiversity in association with carbon capture. Protected areas in Bangladesh are of government wealth, however, degraded and denuded waste and marginal lands might be the best fit for establishing carbon forests.

• Journal of the Korean Wood Science and Technology
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• 제42권3호
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• pp.309-317
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• 2014

수확된 목제품(Harvested Wood Products, HWP)이란 제재목, 합판, 파티클보드 또는 목구조재, 건축내장재, 가구, 종이제품 등과 같이 나무를 원료로 사용하여 가공한 제품을 말한다. HWP는 수명을 다하여 폐기될 때까지 산림에서 생장하면서 저장했던 탄소를 장기간 제품 내에 저장하고 있기 때문에 대기 중의 이산화탄소 농도를 안정화시키는 효과를 발휘한다. 이러한 이유로, 탄소계정 시 목제품의 탄소저장효과를 인정해야 한다는 의견들이 지속적으로 제기되어왔다. 2011년 11월 더반에서 열린 17차 기후변화협약 당사국총회(COP)에서는 자국산 목재 만을 대상으로 하는 생산접근법을 HWP의 탄소계정방법으로 결정하였다. 이에 본 연구는 향후 국가 간 논의 및 협상에 대응하고자 국산 HWP 탄소계정에 필요한 인자인 반감기를 결정하기 위하여, 외국의 반감기 결정사례를 조사하고 국산 HWP 반감기 결정을 위해 필요한 요소를 분석하였다.

• 대기
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• 제33권1호
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• pp.61-72
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• 2023

Accurate estimation of forest carbon stocks is important in establishing greenhouse gas reduction plans. In this study, we estimate the spatial distribution of forest carbon stocks using machine learning techniques based on high-resolution remote sensing data and detailed field survey data. The high-resolution remote sensing data used in this study are Landsat indices (EVI, NDVI, NDII) for monitoring vegetation vitality and Shuttle Radar Topography Mission (SRTM) data for describing topography. We also used the forest growing stock data from the National Forest Inventory (NFI) for estimating forest biomass. Based on these data, we built a model based on machine learning methods and optimized for Korean forest types to calculate the forest carbon stocks per grid unit. With the newly developed estimation model, we created forest carbon stocks maps and estimated the forest carbon stocks in South Korea. As a result, forest carbon stock in South Korea was estimated to be 432,214,520 tC in 2020. Furthermore, we estimated the loss of forest carbon stocks due to the Donghae-Uljin forest fire in 2022 using the forest carbon stock map in this study. The surrounding forest destroyed around the fire area was estimated to be about 24,835 ha and the loss of forest carbon stocks was estimated to be 1,396,457 tC. Our model serves as a tool to estimate spatially distributed local forest carbon stocks and facilitates accounting of real-time changes in the carbon balance as well as managing the LULUCF part of greenhouse gas inventories.

• Journal of the Korean Wood Science and Technology
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• 제46권2호
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• pp.202-210
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• 2018

This study was carried out to quantify degree of contribution of harvested wood product (HWP) on mitigation of climate change by valuation of public benefits, environmentally and economically. The potential carbon dioxide emission reduction of HWP was estimated by accounting carbon storage effect and substitution effect. Based on 2014 statistics of Korea Forest Service, domestic HWPs were sorted by two categories, such as wood products produced domestically from domestic and imported roundwood. The wood products were divided into seven items; sawnwood, plywood, particle board, fiberboard (MDF), paper (including pulp), biomass (wood pellet) and other products. The carbon stock of wood products and substitution effects during manufacturing process was evaluated by items. Based on the relevant carbon emission factor and life cycle analysis, the amount of carbon dioxide emission per unit volume on HWP was quantified. The amounts of carbon stock of HWP produced from domestic and from imported roundwood were 3.8 million $tCO_{2eq}$., and 2.6 million $tCO_{2eq}$., respectively. Also, each reduction of carbon emission by substitution effect of HWP produced from domestic and imported roundwood was 3.1 million $tCO_{2eq}$. and 2.1 million $tCO_{2eq}$., respectively. The results of this study, the amount of carbon emission reduction of HWP, can be effectively used as a basic data for promotion of wood utilization to revise and establish new wood utilization promotion policy such as 'forest carbon offset scheme', and 'carbon storage labeling system of HWP'.

• Journal of Forest and Environmental Science
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• 제36권2호
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• pp.113-121
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• 2020

This study was carried out in degraded and non-degraded community forests (CF) in the Terai region of Kanchanpur district, Nepal. A total of 63 concentric sample plots each of 500 ㎡ was laid in the inventory for estimating above and below-ground biomass of forests by using systematic random sampling with a sampling intensity of 0.5%. Mallotus philippinensis and Shorea robusta were the most dominant species in degraded and non-degraded CF accounting Importance Value Index (I.V.I) of 97.16 and 178.49, respectively. Above-ground tree biomass carbon in degraded and non-degraded community forests was 74.64±16.34 t ha^-1 and 163.12±20.23 t ha^-1, respectively. Soil carbon sequestration in degraded and non-degraded community forests was 42.55±3.10 t ha^-1 and 54.21±3.59 t ha^-1, respectively. Hence, the estimated total carbon stock was 152.68±22.95 t ha^-1 and 301.08±27.07 t ha^-1 in degraded and non-degraded community forests, respectively. It was found that the carbon sequestration in the non-degraded community forest was 1.97 times higher than in the degraded community forest. CO₂ equivalent in degraded and non-degraded community forests was 553 t ha^-1 and 1105 t ha^-1, respectively. Statistical analysis showed a significant difference between degraded and non-degraded community forests in terms of its total biomass and carbon sequestration potential (p<0.05). Studies indicate that the community forest has huge potential and can reward economic benefits from carbon trading to benefit from the REDD⁺/CDM mechanism by promoting the sustainable conservation of community forests.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2000년도 춘계학술대회논문집B
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• pp.104-107
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• 2000

Evaporative heat transfer characteristics of carbon dioxide has been investigated. Experiment has been carried out for seamless stainless steel tube with outer diameter of 9.55 mm and inner diameter of 7.75 mm. Direct heating method is used for supplying heat to the refrigerant was uniformly heated by electric current which was applied to the tube wall. The saturation temperature of refrigerant is calculated from the measured saturation pressure by using an equation of state. Inner wall temperature was calculated from measured outer wall temperature, accounting for heat generation in the tube and heat conduction through the tube wall. Mass Quality of refrigerant was calculated by considering energy balance in the preheater and the test section. Heat fluxes were set at 12, 16, 20, 23, and $27kW/m^2$, mass fluxes were controlled at 212, 318, 424, and $530 kg/m^2s$, and saturation temperature of refrigerant were adjusted at 0, 3.4, 6.7 and $10.5^{\circ}C$. From this study, heat transfer coefficients of carbon dioxide have been provided with respect to quality for several mass fluxes, heat fluxes. Finally, the experimental results in this study are compared with the correaltion by Gungor and Winterton(1987).

• 한국대기환경학회지
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• 제34권5호
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• pp.727-734
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• 2018

In this study, real-time absorption coefficients of carbonaceous species in $PM_{2.5}$ was observed using a dual-spot 7-wavelength Aethalometer between November 1, 2016 and December 31, 2017 at an urban site of Gwangju. In addition, 24-hr integrated $PM_{2.5}$ samples were simultaneously collected at the same site and analyzed for organic carbon and elemental carbon (OC and EC) using the thermal-optical transmittance protocol. A main objective of this study was to estimate mass absorption cross section (MAC) values of black carbon (BC) particles at the study site using the linear regression between aethalometer-based absorption coefficient and filter-based EC concentration. BC particles observed at 880 nm is mainly emitted from combustion of fossil fuels, and their concentration is typically reported as equivalent BC concentration (eBC). eBC concentration calculated using MAC value of $7.77m^2/g$ at wavelength of 880 nm, which was proposed by a manufacturer, ranged from 0.3 to $7.4{\mu}g/m^3$ with an average value of $1.9{\pm}1.2{\mu}g/m^3$, accounting for 7.3% (1.5~20.9%) of $PM_{2.5}$. The relationship between aerosol absorption coefficients at 880 nm and EC concentrations provided BC MAC value of $15.2m^2/g$, ranging from 11.4 to $16.2m^2/g$. The eBC concentrations calculated using the estimated MAC of $15.2m^2/g$ were significantly lower than those reported originally from aethalometer, and ranged from 0.2 to $3.8{\mu}g/m^3$, with an average of $1.0{\pm}0.6{\mu}g/m^3$, accounting for 3.7% of $PM_{2.5}$ (0.8~10.7%). Result from this study suggests that if the MAC value recommended by the manufacturer is applied to calculate the equivalent BC concentration and radiative forcing due to BC absorption, they would result in significant errors, implying investigation of an unique MAC value of BC particles at a study site.

• 자원ㆍ환경경제연구
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• 제20권2호
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• pp.167-198
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• 2011

최근 우리나라는 2020년 Business-As-Usual(BAU) 대비 30%를 감축하는 탄소배출 감축안을 목표로 설정하였다. 탄소배출 감축목표 달성의 한 방편으로 탄소배출권 거래제가 논의되고 있는 상황이지만, 탄소배출권 거래제를 실시하기 위해서는 가장 먼저 초기 탄소배출권의 배분문제가 해결되어야 한다. 본 연구에서는 탄소배출권 초기배분방식 결정이 우리 경제에 어떠한 영향을 미칠 수 있는가를 중심으로 살펴보았다. 이를 위해 협조적 게임이론인 bankruptcy problem에서의 배분방법을 적용해 배출권을 각 산업별로 배분하였다. 산업별 이산화탄소 배출량은 에너지 통계와 산업연관표를 결합한 하이브리드 산업연관표를 이용해 추계하였다. 세 가지 분배방법에 따른 경제적 파급효과 분석에는 녹색성장회계(green growth accounting) 방식이 적용되었다. 분석결과, 2005년~2007년 기간 동안 우리나라의 연평균 경제성장률은 약 4.36%로 추계되는데, Proportional rule에 의한 배분에 의하면 4.03%, Constrained Equal Awards rule에 의한 배분에서는 4.23%, 마지막으로 Constrained Equal Losses rule에 의한 배분으로는 3.67%로 추산되었다. 따라서 경제성장률 측면에서 보면 Constrained Equal Awards rule에 의한 초기 탄소배출권 배분이 가장 바람직한 것으로 분석된다. 이처럼 초기 배출권의 산업별 배분방식이 어떻게 결정되느냐에 따라 경제에 미치는 파급효과가 매우 상이하게 나타나기 때문에 탄소배출권 도입 및 시행을 위해서는 산업 수준의 연구결과를 반영해야 하며, 각 산업의 특성을 고려해야 할 것으로 보인다.