Readco Kurimoto, LLC – Address: 460 Grim Lane, York, PA 17406 – Phone: 1-800-395-4959
Readco Kurimoto, LLC

Readco Kurimoto, LLC News

Continuous Processors Transform Slurries into Powders in One Step
The new SC Processor (SCP) line of continuous processors from Readco Kurimoto delivers efficient heat transfer in a compact design to transform slurries into powders and/or increase the viscosity of slurries in a single step. To see our latest publication and to learn more visit the Powder and Bulk Solids website.
Latest Readco Continuous Mixing Processors Decrease Cycle Time
Readco Continuous Mixing Processors allow mixing of multiple powdered, liquid and viscous ingredients in a single step in food, chemical, pharmaceutical, and specialty polymer manufacturing industries. The processors come with twin shaft and co-rotating screws set in a closed barrel and discharges materials with specified moisture, texture, color and uniformity. For more details and to view full article visit Thomasnet.
Industry Publication
Readco Kurimoto, LLC is excited to announce that our continuous processor was featured in PTC Organics, Inc.’s tip of the month newsletter. In the article by Marc Halpern, the leading expert in industrial phase-transfer catalysis, he describes his vision of using the continuous processor as a mechanical method to blend solid and liquid components in phase-transfer reactions. Readco Kurimoto has a wide range of experience working with industrial chemical applications and looks forward to exploring the use of its continuous processor to manufacture products for industries using PTC technology, ultimately creating faster reactions, minimizing waste and increasing product yield. For more details and to view the full article please follow the link below. (Reproduced with the permission of PTC Organics Inc.) PTC E-Newsletter

Follow Us
youtube twitter linkedin facebook

Readco Kurimoto, LLC – Address: 460 Grim Lane, York, PA 17406 – Phone: 1-800-395-4959

Blending Photo 2

Blending Photo 3

blending Photo 4

blending Photo 5

blending Photo 6

Mixing Photo 2

Mixing Photo 3

Mixing Photo 4

Mixing Photo 5

Mixing Photo 6

Mixing Photo 7

Mixing Photo 8

Mixing Photo 9

Mixing Photo 10

Mixing Photo 11

Mixing Photo 12

Mixing Photo 13

Mixing Photo 14

Mixing Photo 15

Mixing Photo 16

Mixing Photo 17

Mixing Photo 18

Mixing Photo 19

Mixing Photo 20

Mixing Photo 21

Mixing Photo 22

Mixing Photo 23

Mixing Photo 24

Mixing Photo 25

Mixing Photo 26

Mixing Photo 27

Mixing Photo 28

Mixing Photo 29

Mixing Photo 30

Mixing Photo 31

Mixing Photo 32

Mixing Photo 33

Mixing Photo 34

Mixing Photo 35

Mixing Photo 36

Mixing Photo 37

Mixing Photo 38

Mixing Photo 39

Mixing Photo 40

Material Separation Photo 2

Material Separation Photo 3

Material Separation Photo 4

Material Separation Photo 5

Material Separation Photo 6

Material Separation Photo 7

Material Separation Photo 8

Material Separation Photo 9

Material Separation Photo 10

Material Separation Photo 11

Material Separation Photo 12

Company History Photo 1

Company History Photo 2

Company History Photo 3

Company History Photo 4

Company History Photo 5

Company History Photo 6

Company History Photo 7

Company History Photo 8

Hybrid Reactor Photo 2

Hybrid Reactor Photo 3

Hybrid Reactor Photo 4

Hybrid Reactor Photo 5

Hybrid Reactor Photo 6

Hybrid Reactor Photo 7