Controlling flow for efficient resource recovery
In the recovery of underground resources such as oil and geothermal energy, water flows from an injection well and fluids containing resources are pumped from a production well. There are multiple channel networks from an injection well to a production well, each having different fluidity. Since fluid preferentially flows through channel networks with high fluidity, there has been a problem that resources cannot be efficiently recovered from channel networks with low fluidity. Conventionally, in order to recover more resources from channel networks with low fluidity, it is necessary to drill additional wells, but each well costs several hundred million yen. The present invention has found a method to reverse the magnitude of the flow performance (flow velocity) of each channel with different fluidity. In other words, the present invention is expected to increase the fluidity of channel networks with low fluidity and contribute to efficient resource recovery.
Inquire About This Product
basic information
For details, please contact us or refer to the PDF.
Price range
Delivery Time
Applications/Examples of results
For details, please contact us or refer to the PDF.
catalog(1)
Download All Catalogs
Company information
The revenue generated from technology transfer is reinvested into universities and researchers as new research funding, which is used to create further research outcomes. To ensure the smooth operation of this cycle, known as the "Intellectual Creation Cycle," we will actively promote technology transfer. The types of seeds we handle include patents, know-how, databases, and programs. We have established a collaborative framework by concluding basic technology transfer agreements with the following universities (as of June 1, 2025): - Tohoku University - Hirosaki University - Iwate University - Akita University - Fukushima University - Yamagata University - Tohoku Gakuin University - Iwate Medical University - Fukushima Medical University - Aizu University - Miyagi University - Hokkaido University - Muroran Institute of Technology - Showa Medical University
![[Rental] New Panaguide + AI Automatic Translation Device Simultaneous Interpretation System](https://image.www.ipros.com/public/product/image/254366/IPROS11212851514804492938.jpg?w=280&h=280)
![[Rental] VX-D2901U Vehicle-mounted Digital Simple Radio Registered Station](https://image.www.ipros.com/public/product/image/254366/IPROS2245405174508058432.jpg?w=280&h=280)
![[Rental] FTR-410D | Specific Low Power Transceiver Repeater](https://image.www.ipros.com/public/product/image/254366/IPROS18040955508108055620.jpg?w=280&h=280)