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How to Use DMC Catalyst to Produce Polyether Polyols?

 The DMC catalyst is double metal cyanide catalyst. Compared with similar polyols made using basic(e.g., KOH)catalysts, polyether polyols made from the catalyst have low unsaturations, narrow molecular weight distributions, have high molecular weight, and are useful in making a variety of polyurethane products. DMC catalyst is highly active in epoxide polymerization reactions used to prepare polyether polyols.

 

We can yield the DMC more than 20000 kg within one year, and thus afford to produce 5070 ten thousand tons of polyols. This catalyst is white or light yellow powder, is suitable for preparation of polyols with 1~6 functions. Compared with basic catalysts, this catalyst can be used with less amount (30ppm), and reaction time of polymerization is reduced largely, and the polyols products are not necessary to be refined. The DMC is suitable for using in common epoxide polymerization reactors, but it can be better if reactors have both of stirring and cycling systems.

 

When using the DMC production period is short, thus the costs for production are reduced while the property of products are advanced.

 

Conditions wanted for initiators

1. polyethers with 13 0r more hydroxyl groups

2. molecular weight:for at least 2 hydroxyl groups---350~1000; for monols---with boiling point more than l00

3. Mn+ (mainly for KNaions)5ppm

4. water content0.1%

5. acid value0.15mgKOH/g

 

Applying procedure

1. Weigh certain amount of initiator and the catalyst. The catalyst's amount is generally 30ppm relative to the product (it mainly refers to N220 with 2 hydroxyl groups and N330 with 3 hydroxyl groups). The amount of the catalyst can reduce if the molecular weight of products are  relatively high, e.g. for N240, the amount can be 2025ppm.

2. The mixture is stirred and is stripped under a vacuum with pressure less than l0 mm (Hg), and is heated to 130~145to remove traces of water from the starter. Generally it needs more than 40min after the temperature  rises to 130~145.

3. Propylene oxide (PO) or mixture of ethylene oxide (EO) and PO is fed to the reactor, under a pressure of 0.10.25Mpa. Additional PO or PO and EO is not added until an accelerated pressure drop occurs in the reactor (temperature can reach above 180,but this can not harm the activity of DMC or the properties of products). PO or PO and EO is added while maintaining a reactor pressure generally less than 0.1Mpa,temperature 140±10.

4. After PO or PO and EO addition is complete, the mixture is held at 140±5until a constant pressure is observed. Residual unreacted monomer (generally only traces) is then stripped.

 


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  Synthesis of DMC-based polyether polyol by a continuous method   A certain amount of DMC catalyst is taken and uniformly dispersed in a certain amount of small molecule initiator. Add 0.5 kg of the mixture of the initiator in the small test reactor. The vacuum was replaced 1-2 times with N2, and the N2 pressure was maintained at 0.1 MPa. After heating, stirring and raising the temperature to a certain temperature, the quantitative PO was introduced into the continuous autoclave with nitrogen gas for induction. When the induction is successful (the temperature in the kettle rises and the pressure drops), the PO is continuously passed to carry out the reaction. Open the outer loop and continue to pass the PO into the continuous kettle.   When the liquid in the reaction vessel is full, the PO, DMC catalyst and the initiator are continuously added to the kettle at a certain ratio and a certain speed through the power system. Continuous discharge is started when a certain pressure is reac