Effectiveness of the Vertical Gas Ventilation Pipes for Promoting Waste Stabilization in Post-Closure Phase

To make inside of the municipal solid waste (MSW) landfill aerobic as much as possible is thought to be preferable for promoting waste stabilization, reducing pollutant's load in leachate, minimizing greenhouse gas emission and shortening post-closure-care period. In Japan, installation of semi-aerobic landfill structure has widely spread in order to promote waste stabilization in MSW landfill from 1980s. In semi-aerobic landfill structure, outlet of main leachate collection pipe is opened to atmosphere. Heat generated by aerobic degradation of waste causes natural convection and natural aeration arises from the outlet of leachate collection pipe to the gas vents. It is so-called stack effect. This air flow is thought to be effective for purifying leachate flowing through drainage layer and leachate collection pipes. And it is also thought to be contributing to expanding aerobic region in waste layer in landfill. Recently, measures attempting the promotion of waste stabilization are taken at several landfills at where stabilization of waste delays, in which many vertical gas vents are newly installed and close structure to semi-aerobic landfill is created. However, in many cases, these gas vents are not connected to leachate collection pipes. Many vertical gas vents are just installed without scientific proof regarding whether they can contribute for waste stabilization. In this study, how such installation of gas vents is effective for waste stabilization and aerobization of waste layer was discussed by numerical analysis. In numerical analysis, heat transfer, gas movement by pressure, gas diffusion, biological degradation of organic matter, and heat generation by biodegradation were taken into account. Simulations were carried out by using the general purpose simulator of finite element method. Three types of landfill structure were assumed. As the results, the following information were obtained. In dig-down type landfill, installation of gas vents has no effect for changing air flow. On the other hand, in pile-up type landfill, installation of vertical gas vents can accelerate air invasion and significantly promote waste stabilization, if it has high permeable horizontal layer

Effectiveness of the Vertical Gas Ventilation Pipes for Promoting Waste Stabilization in Post-Closure Phase

To make inside of the municipal solid waste (MSW) landfill aerobic as much as possible is thought to be preferable for promoting waste stabilization, reducing pollutant's load in leachate, minimizing greenhouse gas emission and shortening post-closure-care period. In Japan, installation of semi-aerobic landfill structure has widely spread in order to promote waste stabilization in MSW landfill from 1980s. In semi-aerobic landfill structure, outlet of main leachate collection pipe is opened to atmosphere. Heat generated by aerobic degradation of waste causes natural convection and natural aeration arises from the outlet of leachate collection pipe to the gas vents. It is so-called stack effect. This air flow is thought to be effective for purifying leachate flowing through drainage layer and leachate collection pipes. And it is also thought to be contributing to expanding aerobic region in waste layer in landfill. Recently, measures attempting the promotion of waste stabilization are taken at several landfills at where stabilization of waste delays, in which many vertical gas vents are newly installed and close structure to semi-aerobic landfill is created. However, in many cases, these gas vents are not connected to leachate collection pipes. Many vertical gas vents are just installed without scientific proof regarding whether they can contribute for waste stabilization. In this study, how such installation of gas vents is effective for waste stabilization and aerobization of waste layer was discussed by numerical analysis. In numerical analysis, heat transfer, gas movement by pressure, gas diffusion, biological degradation of organic matter, and heat generation by biodegradation were taken into account. Simulations were carried out by using the general purpose simulator of finite element method. Three types of landfill structure were assumed. As the results, the following information were obtained. In dig-down type landfill, installation of gas vents has no effect for changing air flow. On the other hand, in pile-up type landfill, installation of vertical gas vents can accelerate air invasion and significantly promote waste stabilization, if it has high permeable horizontal layer

Transplantation of hybrid adipose-derived stem cell sheet with autologous peritoneum: An in vivo feasibility study

Introduction: In regenerative medicine, cell sheet engineering has various advantages, including the retention of cells at the transplantation site for a longer period and the local delivery of growth factors and cytokines. Adipose-derived stem cell (ASC) is widely used owing to their various functions such as wound healing, immunomodulation, and nerve regeneration, in addition to their ability to differentiate into adipocytes, chondrocytes, and osteoblasts. ASC sheet generated using cell sheet engineering is considered effective in preventing anastomotic leakage, a serious postoperative complication in gastrointestinal surgery. However, the ASC sheet is too soft, thin, and brittle to handle with laparoscopic forceps during the operation. Therefore, we considered using the peritoneum, which is stiff and easy to collect while operating, as an alternative support. In this study, we explored the feasibility of using the peritoneum as a support for the precise transplantation of ASC sheets during surgery. Methods: ASCs were isolated from the subcutaneous fat of the inguinal region of Sprague-Dawley (SD) transgenic rats expressing green fluorescent protein. ASCs were cultured until passage 3, seeded in temperature-responsive culture dishes, and the resulting ASC sheet was harvested at more than 80% confluency. Non-transgenic SD rats were used for transplant experiments. The wall peritoneum was harvested from SD rats following laparotomy, and hybrid adipose-derived stem cell (HASC) sheet was prepared by laminating the peritoneum with ASC sheet. The cell sheets were transplanted on the backs of SD rats following the incision. On post-transplantation days 3 and 7, the specimens were extracted. ASC and HASC sheets were then compared macroscopically and histopathologically. Results: HASC sheet transplantation was macroscopically and histopathologically more effective than ASC sheet transplantation. The peritoneum provided sufficient stiffness as a support for precise transplantation. Conclusion: The newly developed HASC sheet, which combine the advantages of ASC sheet with those of the peritoneum, could be more useful for clinical application than the ASC sheet alone

Ultrafast Dynamics of Intrinsic Anomalous Hall Effect in the Noncollinear Antiferromagnet Mn3Sn

Recently the large anomalous Hall effect (AHE) in noncollinear antiferromagnets at room temperature has been drawing much attention for fundamental interests in multipole magnetism and topological electronic structure as well as for potential application in terahertz (THz) spintronics. To realize the high-speed electrical readout of the antiferromagnetic information storage by using the AHE, sub-picosecond dynamics of the AHE out of equilibrium must be clarified but has evaded experimental detection. In this work, we conducted optical pump-THz probe spectroscopy of a Weyl antiferromagnet Mn3Sn thin film and observed ultrafast reduction of the AHE within 100 fs. Intriguingly, even in the helical phase where the AHE increases with increasing temperature, the ultrafast reduction of the AHE also emerged and subsequently the pump-induced increase of the AHE was observed within several picoseconds. We clarified that the ultrafast dynamics of the AHE is dominated by the photoinduced change in the electron distribution rather than that of the spin moment and texture. This work unveils the timescale necessary for measuring magnetism by using the AHE based on the intrinsic Berry-curvature mechanism. Furthermore, our study presents a new approach to identify the microscopic origin of AHE from a perspective of nonequilibrium dynamics

Place of Death of Pediatric Cancer Patients in a Single Institute during 7 Years

Place of death is an important issue at the end-of-life. It is poorly understood in pediatric cancer patients in Japan. This study aimed to clarify place of death of children with cancer as well as variables associated with place of death. Study population was pediatric cancer patients who died in the Department of Pediatrics at Kobe University Hospital during the last 7 years. The medical records were retrospectively reviewed regardless of cause of death to derive data relating to patients’ characteristics and disease. 18 patients were included. Median age at death was 12.2 years old. 6 patients including 5 children in complete remission had hematological disease and 12 patients suffered from solid tumors. 4 patients (22.2%) died at home, whereas 14 patients (77.8%) died in the hospital including 6 ICU deaths. No one died in hospices. Preference of patients was unavailable due to the lack of inquiry. Factors influencing place of death (home, ICU, non-ICU) were disease (hematological disease vs. solid tumor, p=0.010, brain tumor vs. non-brain tumor, p=0.023), disease status (complete remission vs. non-complete remission, p=0.0014) and preference of families (p=0.029). Among 6 families who expressed preference, no disparity was observed between actual and preferred place of death. This is the first English publication of place of death of pediatric cancer patients in Japan. The low percentage of home death, factors influencing place of death and the lack of disparity between actual and preferred place of death were indicated. Further studies are required to better understand place of death