A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
SOLID-LIQUID SEPARATION SYSTEM
To provide a solid-liquid separation system that can be driven by small power.SOLUTION: The solid-liquid separation system comprises: a sand pump 2 that transfers sand-containing water mixed with sand; an inner container 3 that has an inflow port 341 into which the sand-containing water transferred by the sand pump 2 flows and a discharge port 331 through which concentrated water in which concentrations of sand are increased by removing some liquid components from the sand-containing water; and an outer tank 4 that receives the concentrated water. The inner container 3 has between the inflow port 341 and the discharge port 331 a squeezed part 32 in which cross sectional areas of an internal space S1 defined by an inner peripheral surface 3a of the inner container 3 are smaller at the discharge port 331 side than at the inflow port 341 side. The outer tank 4 comprises a side wall 41 arranged closer to outside than an outer peripheral surface 3b of the inner container 3 and extended upward more than the discharge port 331.SELECTED DRAWING: Figure 1
【課題】小さな動力で駆動可能な固液分離システムを提供する。【解決手段】砂が混入した砂混入水を移送する揚砂ポンプ2と、揚砂ポンプ2によって移送された砂混入水が流入する流入口341と砂混入水から一部の液体成分が取り除かれることで砂の濃度が高まった濃縮水を排出する排出口331とを有する内側容器3と、濃縮水を受け入れる外側槽4とを備え、内側容器3は、流入口341と排出口331の間に、内側容器3の内周面3aによって画定された内部空間S1の断面積が流入口341側よりも排出口331側の方が減少した絞り部32を有するものであり、外側槽4は、内側容器3の外周側面3bよりも外側に配置されて排出口331よりも上方に延びた側壁41を備えたものである。【選択図】図1
SOLID-LIQUID SEPARATION SYSTEM
To provide a solid-liquid separation system that can be driven by small power.SOLUTION: The solid-liquid separation system comprises: a sand pump 2 that transfers sand-containing water mixed with sand; an inner container 3 that has an inflow port 341 into which the sand-containing water transferred by the sand pump 2 flows and a discharge port 331 through which concentrated water in which concentrations of sand are increased by removing some liquid components from the sand-containing water; and an outer tank 4 that receives the concentrated water. The inner container 3 has between the inflow port 341 and the discharge port 331 a squeezed part 32 in which cross sectional areas of an internal space S1 defined by an inner peripheral surface 3a of the inner container 3 are smaller at the discharge port 331 side than at the inflow port 341 side. The outer tank 4 comprises a side wall 41 arranged closer to outside than an outer peripheral surface 3b of the inner container 3 and extended upward more than the discharge port 331.SELECTED DRAWING: Figure 1
【課題】小さな動力で駆動可能な固液分離システムを提供する。【解決手段】砂が混入した砂混入水を移送する揚砂ポンプ2と、揚砂ポンプ2によって移送された砂混入水が流入する流入口341と砂混入水から一部の液体成分が取り除かれることで砂の濃度が高まった濃縮水を排出する排出口331とを有する内側容器3と、濃縮水を受け入れる外側槽4とを備え、内側容器3は、流入口341と排出口331の間に、内側容器3の内周面3aによって画定された内部空間S1の断面積が流入口341側よりも排出口331側の方が減少した絞り部32を有するものであり、外側槽4は、内側容器3の外周側面3bよりも外側に配置されて排出口331よりも上方に延びた側壁41を備えたものである。【選択図】図1
SOLID-LIQUID SEPARATION SYSTEM
固液分離システム
KAWAKAMI NAOYA (author) / OHARA TOSHITAKA (author)
2020-12-24
Patent
Electronic Resource
Japanese
SOLID-LIQUID SEPARATION SYSTEM AND SOLID-LIQUID SEPARATION METHOD
| European Patent Office | 2020
SOLID-LIQUID SEPARATION SYSTEM AND SOLID-LIQUID SEPARATION METHOD
| European Patent Office | 2019