한약재로 이용되고 있는 육묘한 식방풍을 공시하여 육묘이식 백색비닐피복, 육묘이식 흑색비닐피복, 육표이식 무피복 처리와 노지직파 무피복처리가 생육과 수량에 미치는 영향에 관하여 시험을 수행한 결과는 다음과 같다. 출아기간은 폿트육묘시 8일이었고 노지직파는 40일이었으며 출아율은 폿트육묘시 74%였으나 노지직파에서는 17%로 크게 저조하였다. 초장, 엽수, 경직경 등 지상부생육량은 육묘이식 백색비닐피복〉육묘이식 흑색비닐피복 〉육묘이식 무피복〉노지직파 무피복처리구 순으로 많은 경향이었다. 주근의 길이는 육묘이식 무피복구가 유의하게 짧았으나, 피복처리구와 노지직파 무피복구는 비슷하게 긴편이었다. 주근의 굵기는 비닐피복구가 무피복구에 비하여 유의하게 굵었고 노지직파 무피복구가 가장 가늘었다. 지근의 수는 육묘이식한 것이 직파한 것보다 4.7~7.1개 많았다 건근비율은 노지직파 무피복구에서 30.5%로 가장 높고 육묘이식구에서는 무피복구가 높았으머 비닐피복구에서 낮은 경향이었다. 10a당 건근수량은 육묘이식 백색비닐피복 542kg, 육묘이식 흑색비닐피복 506kg, 육묘이식 무피복 419kg으로 노지직파 7kg에 비하여 각각 52, 42, 17%증가하였으며 식방풍의 재배는 육묘이식하되 백색비닐로 피복하여 재배하는 것이 가장 유리하였다.

This study was conducted to evaluate the effects of functional ingredients with supplementation as a bulking agent in composting of swine manure. Treatments were T1 & T5；Swine mature+Vermiculite, T2 & T6；Swine manure+Perlite, T3 & T7； Swine manure+Vermiculite+Perlite, T4 & T8；Swine manure+Bark. T1, T2, T3 and T4 were supplemented with functional ingredients on d 0 of composting. T5, T6, T7 and T8 were supplemented with functional ingredients on d 3 of composting. Functional ingredients were Fermkito and Yucca. During the composting period, changes of temperature were showed traditionally composting trend. Volatile fatty acids were decreased regardless of treatments in functional ingredients supplementation. Organic matter, T󰠏N and C/N ratio were showed higher bark treatments than other treatments. pH and EC were not differences among the treatments. P₂O₅ and K₂O were showed level of 1󰠏3%. In heavy metal, Cr were showed higher in vermiculite treatment than other treatments. In conclusion, vermiculite and perlite treatments were greater composting effects than bark.

본 논문은 게임제작을 위한 온라인게임의 엔진기술 및 설계에 관해 고찰해 보고저 한다. 이 러한 연구는 국제적인 경쟁력을 가지는 국산 게임엔진 개발이라는 과제의 실무기술로 사용될 수 있을 것이다.

The optimum dosage of quicklime in producing organic fertilizer using livestock wastes with a greater than 80% water content was analysed. After one day had elapsed to allow for the organic fertilizer to dry, the quicklime dosage and the composition of the organic fertilizer were analysed. Any from done to the organic fertilizer was also assessed. The amount of the quicklime required to stabilize livestock wastes was determined by water content of livestock wastes. For J farm(slurry style) of which livestock wastes have 94.6% of water concentration, less than 3% of total amount of livestock wastes, for H farm(scraper style) of which livestock wastes have 85% of water concentration, less then 4% of total livestock wastes and Y farm(traditional style) of which livestock wastes have 80% of water concentration, less then 5% of total livestock wastes. Generally, in order to pack the organic fertilizer, water containing quicklime-stabilized livestock wastes should be less than 35%. It takes 9 days to keep this water content for the wastes from H and Y farms(less than 85% in water content), and 12days for the wastes from J farm(94.6% in water content). According to the classification standard for compost constitution by Higgins, the crude fertilizers from all 3 farms had high grade K2O and CaO, the middle grade T-N and middle or low grade P2O5. Stabilization by quicklime is known to inhibit bacterial decomposition of organic matter and the activity of pathogenic organisms. In this study, more than 99.99% of coliform group, fecal group and viable cell count were reduced. Our results indicate that livestock wastes of greater 80% water content could be used to produce organic fertilizer without the addition of a material for moisture control.

In the recent years, major ship registers have demanded improved safety on the hull stress of large bulk carriers which are on navigation or cargo handling in harbour. Under these circumstances, a system that monitors hull stress and ship condition is being more and more important. If efficient and appropriate navigational information is given, safety of navigation would be greatly improved. The major ship registers of the globe are investing a great effort on the development of a system that monitors the hull stress of ship. Using this system, information of hull stress and ship motion is given to the users and also the data is stored on the external data storage system simultaneously. Through this study, a software that monitors hull stress was developed. Not only can randomized input-data of the standard hardwares be applied to the system, but also this system can be operated on and applied to real hardware systems.

This study was conducted to evaluate chemical parameters on butchery wastes as a bulking agent in composting of swine manure. Treatments included T1 ; Swine manure + Rice hull, T2 ; Swine manure + Rice hull + Vermiculite, T3 ; Swine manure + Rice hull + Perlite, T4 ; Swine manure + Vermiculite, T5 ; Swine manure + Vermiculite + Perlite, T6 ; Swine manure + Perlite, T7 ; Swine manure + Rice hull + Vermiculite + Perlite. During the composting period, changes of temperature and pH were showed traditionally composting trend. Moisture, organic matter, total nitrogen and C/N ratio were higher rice hull than vermiculite and perlite treatments. Ammonia-N and EC were not differences among the treatments. In heavy metal, Cd and Cr were showed higher in vermiculite treatments than other treatments. Rice hull treatments were decreased volatile fatty acids compared to that of other treatments. In conclusion, rice hull containing high organic content was greater composting effects than vermiculite and perlite containing low organic content.

pH(H2O), pH(KCl), CEC(cation exchange capacity), O.M.(organic matter) and exchangeable cations(K, Na, Ca, Mg) of paddy soil, upland soil and forest soil in Kumi city were investigated for the purpose of knowing soil acidification and the correlation between soil acidification and leaching of inorganic salts. The mean pH(H2O) values of paddy soil were 5.23(surface soil) and 5.69(subsoil), and those of upland soil were 6.37(surface soil) and 6.11(subsoil), and those of forest soil were 4.67(surface soil) and 4.74(subsoil). The mean pH(KC1) values of paddy soil were 4.59(surface soil) and 4.98(subsoil), and those of upland soil were 5.48(surface soil) and 5.04(subsoil), and those of forest soil were 3.82(surface soil) and 3.89(subsoil). The acidification of forest soil was more rapid than that of paddy soil and upland soil. The total mean amounts of exchangeable cations(K, Na, Ca, Mg) in paddy soils were 6.14me/100g(surface soil) and 5.64me/100g(subsoil), and those in upland soils were 6.86me/100g(surface soil) and 6.65 me/100g (subsoil), and those in forest soils were 4.06me/100g(surface soil) and 3.34me/100g (subsoil). The contents of inorganic salts in forest soil were much less than those of paddy soil and upland soil. The correlation coefficients(r) between pH(H2O) values and the total amounts of exchangeable cations in soils were 0.6635** (surface soil) and 0.6946** (subsoil), and those between pH(KCI) values and exchangeable cations in soils were 0.6629** (surface soil) and 0.5675**(subsoil).The correlation between soil acidification and leaching of inorganic salts in soil was positively significant at 1% level.

In an attempt to evaluate the possibility of producing an organic fertilizer using sediments from coastal farming areas, the chemical composition, bacteriological quality and heavy metals in the sediments alkalized by quicklime and magnesium hydroxide were analyzed. The optimum reaction was obtained from the following conditions : a 1:4 mixture of dry sediment to food wastes and the addition of 30% quicklime to the mixture. According to the classification standard for compost constituent by Higgins, all composts had a low or intermediate grade in T-N and K2O content, a low grade in P2O5 and a high grade in CaO and MgO content. Stabilization by quicklime and magnesium hydroxide is likely to inhibit the bacterial decomposition of organic matter and the activity of pathogenic organisms. Raising the pH of stabilized sediments to 12 for 2 hours(PSRP criteria of EPA) allowed 99.99% of the coliform group, fecal group and viable cell count to be reduced. The results suggested that the crude fertilizer produced by alkaline stabilization method was innoxious and thereby the sediments from coastal farming areas could be used as organic fertilizer.