In this study, a direct contact membrane module was manufactured to be used in a pilot scale membrane distillation process to treat 3 m3/day of the digestate produced from anaerobic digestion of livestock manure. In order to investigate the performance of the membrane module, permeate flux was measured with and without spacer inside the module under various condition of temperature difference and cross flow velocity (CFV) through the membrane surfaces. Flux recovery rate after chemical cleaning was also investigated by applying three different cleaning methods. Additionally, thermal energy consumption was theoretically simulated based on actual pilot plant operation conditions. As results, we observed flux of the module with spacer was almost similar to the theoretically predicted value because the installation of spacer reduced the channeling effect inside the module. Under the same operating condition, the permeate flux also increased with increasing temperature difference and CFV. As a result of chemical in-line cleaning using NaOCl and citric acid for the fouled membranes, the recovery rate was 83.7% compared to the initial flux when NaOCl was used alone, and 87% recovery rate was observed when only citric acid was used. However, in the case of using only citric acid, the permeate flux was decreased at a rapid rate. It seemed that a cleaning by NaOCl was more effective to recover the flux of membrane contaminated by the organic matter as compared to a cleaning by citric acid. The total heat energy consumption increased with increasing CFV and temperature difference across the membrane. Thus, further studies should be intensively conducted to obtain a high permeate flux while keeping the energy consumption to a minimum for a practical application of membrane distillation process to treat wastewater.

One-step dilution and direct transfer would be a practical technique for the field application of frozen embryo. This study was to examine whether Jeju Black Cattle (JBC, Korean Cattle) can be successfully cloned from vitrified and one-tep diluted somatic cell nuclear transfer (SCNT) blastocyst after direct transfer. For vitrification, JBC-SCNT blastocysts were serially exposed in glycerol (G) and ethylene glycol (EG) mixtures〔10% (v/v) G for 5 min., 10% G plus 20% EG (v/v) for 5 min., and 25% G plus 25% EG (v/v) for 30 sec.〕which is diluted in 10% FBS added D-PBS. And then SCNT blastocysts were loaded in 0.25 ml mini straw, placed in cold nitrogen vapor for 3 min. and then plunged into LN2. One-step dilution in straw was done in 25℃ water for 1 min, by placing vertically in the state of plugged- end up and down for 0.5 min, respectively. When in vitro developmental capacity of vitrified SCNT blastocyst was examined at 48 h after one-step dilution, hatched rate (56.4%) was slightly lower than that of control group (62.5%). In field trial, when the vitrified-thawed SCNT blastocysts were transferred into uterus of synchronized 5 recipients, a cloned female JBC was delivered by natural birth on day 299 and healthy at present. In addition, when the short tandem repeat marker analysis of the cloned JBC was evaluated, microsatellite loci of 11 numbers was perfectly matched genotype with donor cell (BK94-14). This study suggested that our developed vitrification and one-step dilution technique can be applied effectively on field trial for cloned animal production, which is even no longer in existence.

This study was carried out to increase the viability of bovine frozen4hawed in vitro produced (IVP) embryos and pregnancy rate by direct transfer method. Cumulus-oocyte complexes were aspirated from excised Hanwoo ovaries and matured in TGM 199 for 20~22 hours at 38.5 in 2% in air. Matured oocytes were fertilized with capacitated sperm for 6 hours and then co-cultured with cumulus cells for 9 days. 63% of the oocytes cultured was deaved and 29% out of them developed into blastocysts. Good or excellent grade of blastocysts on D 7 or 8 were frozen with 1.8M ethylene glycol as a cryoprotectant for direct transfer. Frozen embryos were thawed at 2 water for 10 sec following 4~5 second in air. For the survival assay of frozen4hawed lVP blastocysts, they were cultured in TCM 199 supplemented with 100M -mercaptoethanol and 20% FCS for 72 hours. The percentage of embryos developed to re-expanded or hatched after 72 hours culture was 95. 5 and 77.3%, respectively. When frozen-thawed Ivp embryos were transferred to 43 synchronized recipients by direct transfer method, eighteen recipients (41.8%) was pregnant. The highest pregnant was in naturafly synchronized recipients (71.4%), but induced estrus by using PRID(29.2%) and PGF(20.0%) was showed lower pregnancy rate. The pregnancy rate was higher in day 7 blastocysts(56.0%) than day 8 blastocysts(22.2%). (Key words: in vitro produced, blastocyst, frozen-thawed, direct transfer)