The odors emitted from wastewater treatment plants are not only a health and hygiene problem, but can also lead to complaints from residents and have wider social ramifications such as bringing about falling property values in the surrounding area. In this paper, based on the data measured at domestic and overseas wastewater treatment facilities, the concentrations of complex odors and odorous compounds were compared for each treatment/process: primary treatment, secondary treatment, and sludge treatment processes. Odor compounds that contribute greatly to complex odors were summarized for each process. In addition, the characteristics of odor wheels for each wastewater treatment process, which provide both chemical and olfactory information regarding odors, were reviewed. For domestic wastewater treatment facilities, the complex odor concentrations (unit, dilution factor) of the primary and secondary treatment processes were 4.5-100,000 (median, 32.1) and 2.5-30,000 (median, 10.7), respectively. However, the complex odor concentrations in the sludge treatment process were 3.0-100,000 (median, 118.7), which was more than three times higher than that in the wastewater treatment process. In the wastewater treatment process, those odor compounds making the greatest contributions to complex odors were sulfur-containing compounds such as hydrogen sulfide, dimethyl sulfide, and dimethyl disulfide DMS. In order to properly manage odors from wastewater treatment plants and minimize their impact, it is important to understand the status of odor emissions. Therefore, the compositions and concentrations of odors from wastewater treatment processes and odor wheel information, which are reviewed in this paper, are used to evaluate the potential risk of odor from wastewater treatment facilities in order to derive strategies to minimize odor emissions. Moreover, the information can be usefully used to introduce the best available technology to reduce odors emitted from wastewater treatment facilities.

This review paper aimed to comprehensively assess the ventilation methods and ventilation rates of livestock sheds, various livestock odor mitigation technologies, and the design flow rate of odor mitigation devices. The most efficient ventilation method for livestock odor control was found to be mechanical ventilation. When livestock odor is at its most severe during summer, ventilation systems are operated at the maximum ventilation rate, which is 5-25 times higher than the ventilation rate in winter. Therefore, the mitigation facilities of livestock odor must be designed while considering the maximum ventilation rate. There is a significant amount of research data on various livestock odor control technologies using various physical, chemical, biological, and complex technologies applied to livestock farms. Biofiltration and photocatalytic oxidation are considered the most promising methods due to their cost-effectiveness and simplicity. Biofiltration is effective for removing hydrophilic odors, but requires improvement for the efficient removal of hydrophobic odors and the control of accumulated excess biomass. The advantages of the photocatalytic oxidation method include its excellent hydrogen sulfide and ammonia removal rates and relatively low ozone emissions. However, it requires technology to reduce nitrous oxide emissions. Investment in installing and operating these odor mitigation technologies is only realistic for large-sized farms. Therefore, it is imperative for small and medium-sized livestock farms to develop odor mitigation technology that is inexpensive and has low installation, operation, and maintenance costs.

Hypochaeris radicata, native to Europe and Eurasia, is a perennial plant of the Asteraceae family. In Korea, H. radicata was reported in 1992, mainly in Jeju Island, and gradually spreading to the inland. It overwinters in the form of a rosette and blooms yellow flowers from May to June. H. radicata propagates by seeds and rhizomes. The germination temperature of the seed is 15/20°C (day/night), and the rhizome forms a new plant at a depth of 2-3 cm in the soil. The roots of H. radicata secrete allelochemicals that inhibit the development of other plants. Some use it as a salad or forage substitute but to a limited extent. However, extensive research on ampicillin contained in H. radicata has been conducted, and its anticancer and anti-inflammatory effects have been recognized. There are only a few methods to manage H. radicata both culturally and physically. In orchards, soil treatments such as oxyfluorfen and diclobenil, or nonselective foliar treatments such as glufosinate-ammonium and glyphosate are used. Notably, there are no known biological control agents.

Technology innovation companies are focusing on contributing to business performance by R&D project as a strategic tool. Successful R&D leads to corporate competitiveness enhancement, national industrial development, but there are high uncertainty and risks in R&D. Public and private R&D projects are carried out to achieve various purposes. It was verified how the risk management and benefit management of the R&D project affect the detailed R&D project performance between the Public and private domain. The impact of Project Leadership on R&D performance was also analyzed. Those who have participated in the Public and Private R&D projects at companies or research institutes were surveyed. First, it was found that project risk and benefit management have partially an effect on R&D project performance. Second, Public and private R&D Project Leadership showed partially a interaction effect between project management and project performance.

This review comprehensively summarizes the livestock odor reduction method by dietary manipulation, in-housing management, and manure management. The gut microbial metabolism of animals can be stimulated by low-crude protein feeding and the addition of probiotics, enzymes, plant extracts, and/or organic acids to their feed. These methods can result in reduced odor emissions from manure. For in-housing management, it is important to maintain the proper breeding density in the barn facilities, regularly remove dust and manure, and periodically clean the barn facilities. A barn using litter on the floor can reduce odor at a relatively low cost by adding adsorbents such as zeolite, biochar, etc. Although masking agent spraying can be the simplest and quickest way to control odors, it is not a fundamental odor mitigation strategy. Odor emissions can be reduced by installing covers on manure slurry storage facilities or by acidifying the manure slurry. It is necessary to install a solid-liquid separator in an enclosed facility to minimize odor emissions. Other methods for reducing odor emissions include covering manure composting plants with semi-permeable membranes or using reactor composting technology. In order to minimize odor emissions in the liquid manure composting, sufficient oxygen must be supplied during the fermentation process. Furthermore, the odor reduction effect can be achieved through the liquid manure pit recharge system which supplies matured liquid manure fertilizer to the slurry pit in the pig house.

본 연구는 기후변화에 따른 콩의 한해 및 습해에서의 안정생산 재배법 확립을 위한 물관리 방법별 생육특성 및 수량을 알아보기 위하여, 2021년과 2022년 2년에 걸쳐 무처리, 무굴착 땅속배수, 지중점적 관개 및 무굴착 땅속배수 + 지중점적 관개(관·배수 통합) 4처리로 수행하였다. 연차간 토양수분함량 및 토양수분장력은 관·배수 통합 처리구에서 토양 수분 장력 변이가 낮고, 안정적 토양수분 유지가 가능했으며, 2021년 생육특성 조사에서는 관·배수 통합 처리구 초장이 57.1㎝로 가장 길게 나타나, 가장 짧은 무관개 43.1㎝ 대비 32.5% 더 길게 조사되었으며, 2022년 초장 또한 같은 경향으로 관·배수 통합 > 지중점적관개 > 무굴착 땅속배수 > 무관개 순서로 길었다. 수량구성요소에서도 생육특성과 같은 경향을 보였으며, 이에 수량도 수량구성요소가 가장 높았던 관·배수 통합 처리구에서 연차간 각각 409, 346 kg/10a로 가장 많았다. 그러나, 관개량 및 물 이용효율 평가에서는 관·배수 통합 처리구가 지중점적관개 처리구 대비 일평균 관개량 203.1 ton/10a 더 많을 뿐만 아니라, 물 이용효율에서도 45.6% 더 낮게 나왔기 때문에 추후, 기후변화 환경에서의 효율적인 물관리와 한정된 농업용수 사용을 최대화로 할 수 있는 관개량에 따른 더 세부적인 연구가 추가된다면, 현재 지구온난화 등의 영향으로 범지구적 물 부족 현상이 나타나는 환경에서 보다 더 물 효율성을 극대화 시키고, 안정적인 콩 물관리 재배기술 개발의 기초자료가 될 수 있을 것으로 사료된다.

우리나라 기술경영 교육은 1990년대에 대학에서 독립된 형태의 전공으로 교육과정이 개설된 이후 약 30년 동안 지속적으로 발전하여 국내 여러 대학으로 확산 되어 왔다. 그러나 국내 대학에서 제공되는 기술경영 교육과정의 발전과정과 주제들을 구체적으로 다룬 연구가 많지 않았다. 본 연구는 우리나라 기술경영교육의 특성을 살펴보고 이를 바탕으로 발전방안을 제시하는 것을 목적으로 한다. 이를 위해 우리나라 기술경영교육의 역사를 시기별로 살펴보고 국내 대학의 기술경영 교육과정에서 다루는 주제들과 특징을 분석하였다. 분석을 위해 대학원 과정의 기술경영교육이 제공하는 교육 과목들을 주제별로 분류하고 대학들 간 구성을 비교하는 내용분석을 실시하였다. 이를 통하여 우리나라 기술경영교육의 특성을 도출하고, 연구결과를 바탕으로 우리 나라 기술경영교육의 발전과제를 제시하였다.

In this review paper, the sources of odor, major odor compounds, and emission characteristics from livestock farms are summarized. The main sources of odor on livestock farms are barn facilities, manure storage facilities, manure composting facilities, and wastewater treatment facilities. High concentrations of odor are emitted during the manure removal process, and livestock odor tends to be the most severe in summer. There was a remarkable difference in odor intensity depending on the farm size and the cleaning condition, and odor intensity varied greatly depending on the weather parameters such as wind direction and speed. The concentrations of ammonia and hydrogen sulfide were high among the odor compounds emitted from livestock farms, and these compounds also contributed to odor intensity. The odor intensity in poultry and swine farms was higher than in cattle farms. Information on livestock odor emission is very useful for managing livestock odor complaints and designing odor abatement technologies.

The livestock industry continues to grow around the world, but livestock odor is becoming an environmental problem that is difficult to solve. In this review paper, the current status of the domestic livestock industry, livestock odor complaints, mediation cases involving environmental disputes related to livestock odor, livestock odor management policies and standards, livestock odor sources, major odor compounds, and emission characteristics are summarized. Domestic meat supply and meat consumption per capita are increasing, and livestock farms are becoming large-scale and intensive. Livestock odor complaints increased 4.5 times over the last five years (2014-2019), and its proportion to total odor complaints was 19%-30%. Livestock facilities larger than a certain size are classified as odor emission facilities and are managed based on the Odor Prevention Act. The information presented in this paper can be used to establish strategies to promote the sustainable development of the livestock industry while resolving air quality deterioration and public health problems caused by odor emissions from livestock farms.

In 2022, the Korean Ministry of Environment designated Parthenium hysterophorus as an ecosystem-disturbing plant. The purpose of this study was to present a management plan for P. hysterophorus considering its distribution, morphological, physiological, and ecological characteristics, and to introduce various control techniques. P. hysterophorus is native to Central America and occurs in about 45 countries worldwide. However, in Korea, it only grows in some areas of Tongyeong and Changwon, Gyeongsangnam Province. P. hysterophorus is an annual plant and spreads by seeds, moves between countries in the process of importing and/or exporting agricultural seeds, and spreads by agricultural machinery and vehicles after introduction. P. hysterophorus releases parthenin, an allelochemical that suppresses the occurrence of the surrounding vegetation, from its stems and roots. In addition, P. hysterophorus causes damage to humans and livestock through various allergens. P. hysterophorus can be controlled by physical methods, such as cutting its stems or pulling roots, and by treatment with non-selective herbicides, such as glyphosate. Many biological control research studies have been conducted and, unfortunately, there is no a practical solution so far.

Since SMR’s reduced reactor radius results in higher neutron leakage, SMR operates at a relatively lower discharge burnup level than traditional Light Water Reactors (LWRs). It may result in larger spent fuel amounts for SMRs. Furthermore, recent studies demonstrated that NuScale reactor will generate a significantly higher volume of low- and intermediate-level waste owing to components located near the active core including the core barrel and the neutron reflector. For spent nuclear fuel simulation, FRAPCON-4.0 was updated. Major modifications were made for fission and decay gas release, pellet swelling, cladding creep, axial temperature distribution, corrosion, and extended simulation time covering from steady-state to dry storage. In this study, typical 17×17 PWR fuel (60 MWd/kgU) and NuScale Power Module (36 MWd/kgU) was compared. NuFuel-HTP2™ fuel assembly, which has a half-length of proven LWR fuel, was employed. Owing to the lower discharge burnup and operating temperature, the maximum hydrogen pickup was 73 wppm and the maximum hoop stress was ~25 MPa. Therefore, hydride reorientation issue is irrelevant to SMR spent fuel. In this context, the current regulatory limit for dry storage (i.e. 400°C and 90 MPa) can be significantly alleviated for LWR-based SMRs. The increased safety margin for SMR spent fuel may compensate high spent fuel management cost of SMRs incurred by an increased amount. The comprehensive analysis on SMR spent fuel management implications are discussed based on simulated SMR fuel characteristics.

Urban space expansion is an important symbol of the urbanization process and has always been an important topic in urban studies. In addition, for sustainable city management, it is important to identify factors that can influence, such as the driving force and direction of urban space expansion, from the stage of establishing an urban development plan. To understand these factors, by observing the expansion process of a specific city, it is possible to sufficiently observe how the urban spatial dimension changes. Through a series of processes, the spatial growth characteristics of the city are analyzed, and the influence and results of important factors are analyzed. For this purpose, this paper examines the changes in the city's outer boundary and land use structure through monitoring data on urban areas of 14 cities in Hunan Province, China from 2000 to 2016. Temporal and spatial regularity according to the urban space expansion of these cities were analyzed, and a preliminary assessment was made on whether the urban space expansion is coordinated with the urban population growth. The assessment result showed: (1) The urban space of most cities has been extended rapidly in 2000-2015 however, the rate and the intensity of urban space expanding has been declining. (2) The construction of the industrial park is the core driving force of the urban space expanding, and the change of the urban space structure is manifested as enclave city expansion because that the industrial park is usually far away from the city center. (3) The population agglomeration is another driving force of the urban space expanding. At this time, the urban space expanding is like boundary extension. (4) Except Changsha city, all of the cities has a high urbanization-area-growth elastic coefficient. It means that most of the cities should enhance the land use degree.

Paspalum distichum and P. distichum var. indutum are perennial weeds of the family Poaceae that prefer moist environments such as waterfronts and waterways. The origin of both species is North America. P. distichum is distributed all over the world. However, P. distichum var. indutum occurs only in the United States, Japan, and Korea. For this reason, in many countries, P. distichum and P. distichum var. indutum are classified as the same species. In other words, P. distichum var. indutum is a different ecological type of P. distichum. Both species can reproduce and spread mainly by rhizome fragments rather than seeds. This rhizome has a characteristic that it does not germinate if it is buried in the ground with depth of more than 3 cm. As a management method for P. distichum and P. distichum var. indutum in agricultural lands (paddy fields), it is effective to combine cultural control and chemical control methods. In other words, combining deep plowing and harrowing can suppress the budding of water sparrow that has invaded paddy fields or fallow paddy fields. After that, these two species that germinate can be controlled by spraying soil treatment herbicides such as butachlor and thiobencarb or foliar treatment herbicides such as cyhalofop-butyl and fenoxaprop-pethyl.

Lactuca scariola L. is one of ecosystem-disturbance plants that grow everywhere such as roadsides, grasslands, railroads, banks, and fields. L. scariola usually occurs in autumn. It overwinters in rosette form. It flowers and produces seeds in early summer of the next year. Seeds of L. scariola can germinate immediately without dormancy when the temperature is over 20°C. Due to endogenous bacteria in seeds of L. scariola, it has a strong drought tolerance. Thus, it can grow well on roadsides. L. scariola should be controlled as it can result in 60-80% of soybean yield loss at densities above 50 plants m-2. It is advisable to remove L. scariola as it competes with native plants by acting as a pioneer to other ecosystem-disturbance plants. Among various control methods, chemical control is the most effective method that is widely used. Soil treatment with herbicides such as oxyfluorfen EC and pendimethalin EC can inhibit the development of L. scariola. Foliar treatment herbicides glyphosate and glufosinateammonium are widely used. L. scariola is resistant to 2,4-D, dicamba, and MCPA among foliar treatment herbicides. Thus, it is recommended to apply herbicides with different modes of action.

이 글은 옥천 이성산성의 고고학적 조사 성과에 기초하여 그 축성과 운영의 특징을 간략 하게나마 살펴보고자 하였다. 이성산성은 삼국시대 신라의 굴현 지역인 옥천군 청산면과 청 성면 일대를 아울러 관리하기에 매우 유리한 위치에 축성하였다. 그리고 가까이는 신라 삼 년산군인 보은 지역, 나아가 영남 중북부 지역과의 교통이 용이한 지점에 위치한다. 이성산성의 초축 성벽은 판축기법을 적용하여 토축성벽으로 축조하였으며, 후대에 지속 적으로 수개축되었다. 특히 초축성벽인 토축성벽 외측에 부가하여 석축으로 성벽의 입면을 이루도록 개축한 부분은 매우 특징적인 모습이다. 성 내부에 대한 조사는 남서쪽 지역 일대 를 중심으로 이루어졌다. 여기에서 확인된 목곽고, 원형수혈군, 석축 집수시설 등은 성 내부 에 각각의 용도와 기능에 따른 다양한 시설물이 조성되었음을 보여준다. 각 유구에서는 주 로 6~7세기의 신라 토기와 기와 등이 출토되어, 축성 주체가 삼국시대 신라임을 분명하게 알 수 있다. 특히 저장시설로 추정되는 목곽고와 원형수혈군의 존재는 이성산성이 수행한 역할과 관련하여 의미있는 자료로 여겨진다. 이성산성의 축성 위치와 성 내부에서 확인된 유구의 성격을 통해 성은 신라가 5세 기 후반 소백산맥을 넘어 금강 유역으로 진출하는 과정에서 삼년산군 아래 굴현 지역 을 관할하는 중심 거점으로 역할하기 위해 축성한 성으로 보았다.

본 연구는 부산광역시를 대상으로 열환경을 개선하기 위한 바람길 관리 방안 제안을 목적으로 한다. 이를 위해, Landsat-7 위성 열영상 자료와 공간통계 분석을 실시하여 부산광역시의 Hot spot과 Cool spot 지역 특성을 파악하였으며, WRF 기상모의를 통해 주요 바람길을 분석하였다. 그 결과, Hot spot 지역 중 열환경 개선이 요구되는 지역은 부산진구, 동래구, 연제구와 사상구 공업지역, 대규모 시설지역에는 부산항 부두로 나타났으며 주요 바람길에는 금정산~백양산~ 구덕산 계곡부로서 확인되었다. 이를 바탕으로 바람길 관리 전략을 제시하면 다음과 같다. 공업시설과 부산항 일대는 대기 온도 상승 요인으로서 주변 지역의 열환경을 악화시키므로 시설의 온도저감 및 바람길을 고려한 도시·건축계획이 요구된다. 바람길 관리가 필요한 지역으로 만덕동, 사직동 일대 산림에 대한 추가적인 훼손이 일어나지 않도록 하여야 하며, 산림과 인접한 지역의 대규모 고층아파트는 산림에서 생성된 차고 신선한 공기의 흐름을 방해하므로 금정산과 접해있는 제3종 일반주거지역의 신규·재개발에 따른 고층아파트 단지 조성은 지양해야 한다. 본 연구 결과는 부산광역시의 기후변화에 대응한 도시계획 및 환경계획수립 시 기초자료로 활용할 수 있을 것으로 기대한다.

기업 국제화는 기업성장에 필수불가결한 전략이지만 생존을 위협하는 위험이 동반되는 과제로 기업 국제화와 경영성과 간의 관계를 살펴보는 연구는 방대하게 진행되어 왔으나 최근 이를 결정짓는 요인으로서 기업경영의 최종 의사결정권자인 최고경영진의 역할에 주목하고 있다. 따라서 본 연구는 최고경영자 이론을 바탕으로 동일한 국제화 수준을 가진 기업 간 경영성과 차이의 원인을 최고경영진의 특성과 국제화 배경으로 간주하여 실증분석을 실시하였다. 이를 위해 최고경영진의 평균 나이, 근속, 교육수준과 국제화 배경비율 등을 조절변수로 활용하여 기업 국제화와 경영성과 간에 조절효과를 살펴보았다. 분석을 위해 2013~2019년까지 7개년 간 KOSPI 시장에 상장 된 자동차산업 및 전자산업에 속한 제조기업 89개를 대상으로 패널데이터를 구성하여 FGLS분석과 단순기울기 분석을 실시하였고 그 결과 다음과 같다. 최고경영진의 (a) 평균 나이가 어릴수록, (b) 평균 근속기간이 길수록, (c) 평균 교육수준이 높을수록, (d) 국제화 관련 전공의 이수자와 (e) 국제화 배경 소유자가 많을수록 기업 국제화와 경영성과 간의 유의한 정(+)의 조절 효과를 가지는 것으로 나타났다. 이러한 결과는 단순히 최고경영진의 특성과 배경을 기업 국제화의 동인으로만 한정시킨 기존 연구의 한계를 해소하면서 유사한 국제화 수준을 가진 기업 간 경영성과 차이의 원인을 파악할 때 반드시 최고경영진의 성향과 역량도 함께 고려해야 한다는 것을 의미 한다. 또한 실무적으로 기업 해외진출 시 경영성과를 향상하기 위해 요구되는 최고경영진의 경력 등을 가늠할 수 있어 이사회에서 최고경영진 선정기준 수립에 기여할 수 있을 것으로 예상한다.