Disclosed are methods of forming a plurality of fibers, and nanofibers produced from such a method.

A heat exchanger pipe system is provided for transporting viscous fluids, including a plurality of individual heat exchangers designed as pipe elements and having a predefined control temperature and/or pressure distribution along the pipe system and in the cross-section of the pipes. The heat exchangers, which are in the form of pipe elements, are arranged at regular distances in the pipe system. The regular distances are selected in such a manner that a predetermined temperature and/or pressure distribution is maintained along the pipe system, tempering apparatus of a viscous fluid transported in the heat exchanger pipe are arranged in the heat exchangers and optional mixing elements which are used to maintain, in accordance with the pipe cross-section, a predetermined temperature and pressure distribution in the cross section of the pipes, and at least 30% of the length of the heat exchanger pipe system is equipped with heat exchangers.

The invention provides an electro spinning polyimide nanofiber high-temperature filter material, wherein the filter material is prepared by: provide a first ODA raw material; dissolve the first ODA raw material in a DMAc solvent; add PMDA and phthalic anhydride to the first solution to obtain a second solution; stir the second solution and perform a water bath on this solution to obtain a first PAA solution; add the first PAA solution to the syringe, and form a first PAA nonwoven fiber layer on the substrate by electrostatic spinning method; provide a second ODA raw material; dissolve in the DMAc solvent to obtain a third solution; add BTDA to obtain a second PAA solution; and add to the syringe, and form a second PAA fiber layer on the first PAA fiber layer to obtain a fiber laminate; and perform thermal imidization treatment on the fiber laminate; perform heat treatment.

Electrospinning apparatus and method for electrospinning of material by ejecting spinning material from a nozzle outlet. The electrospinning apparatus includes a spinning material supply unit, a nozzle unit with a nozzle outlet, a collector unit for collecting a fibre formed during operation of the electrospinning apparatus and a voltage supply unit for applying a voltage difference between the nozzle unit and collector unit. An imaging device is present for capturing an image of a conus and the fibre being formed during operation, as well as a processing unit connected to the imaging device, spinning material supply unit and voltage supply unit. The processing unit is arranged to determine a shape of the conus, and control operation of the electrospinning apparatus based on the determined shape of the conus.

Electrospinning apparatus and method for electrospinning of material by ejecting spinning material from a nozzle outlet. The electrospinning apparatus includes a spinning material supply unit, a nozzle unit with a nozzle outlet, a collector unit for collecting a fibre formed during operation of the electrospinning apparatus and a voltage supply unit for applying a voltage difference between the nozzle unit and collector unit. An imaging device is present for capturing an image of a conus and the fibre being formed during operation, as well as a processing unit connected to the imaging device, spinning material supply unit and voltage supply unit. The processing unit is arranged to determine a shape of the conus, and control operation of the electrospinning apparatus based on the determined shape of the conus.

The present invention is directed to a method and a system for the production of at least one polymeric yarn comprising means for mixing a polymer (1) with a first solvent yielding a mixture; means for homogenizing the mixture; means for rendering the mixture inert (21, 22, 23); means for dipping the mixture into a quenching bath (30), wherein an air gap is maintained before the mixture reaches the quenching bath (30) liquid surface forming at least one polymeric yarn; means for drawing (41) the at least one polymeric yarn at least once; means for washing (5) the at least one polymeric yarn with a second solvent that is more volatile than the first solvent; means for heating the at least one polymeric yarn (6); means for drawing at room temperature (7) the at least one polymeric yarn at least once; and means for heat drawing (8) the at least one polymeric yarn at least once. The instant invention also concerns a system and method of dosing a polymer mixture with a first solvent into an extruder (26), a device (5), a system and a method of solvent extraction from at least one polymeric yarn, and a method and system of mechanical pre-recovery (4) of at least one liquid in at least one polymeric yarn.

The present invention is directed to a method and a system for the production of at least one polymeric yarn comprising means for mixing a polymer (1) with a first solvent yielding a mixture; means for homogenizing the mixture; means for rendering the mixture inert (21, 22, 23); means for dipping the mixture into a quenching bath (30), wherein an air gap is maintained before the mixture reaches the quenching bath (30) liquid surface forming at least one polymeric yarn; means for drawing (41) the at least one polymeric yarn at least once; means for washing (5) the at least one polymeric yarn with a second solvent that is more volatile than the first solvent; means for heating the at least one polymeric yarn (6); means for drawing at room temperature (7) the at least one polymeric yarn at least once; and means for heat drawing (8) the at least one polymeric yarn at least once. The instant invention also concerns a system and method of dosing a polymer mixture with a first solvent into an extruder (26), a device (5), a system and a method of solvent extraction from at least one polymeric yarn, and a method and system of mechanical pre-recovery (4) of at least one liquid in at least one polymeric yarn.

A method of manufacturing a plurality of colors of bulked continuous carpet filament from a single multi-screw extruder which, in various embodiments, comprises: (A) passing PET through an extruder that melts the PET and purifies the resulting PET polymer melt; (B) adding a liquid colorant to the polymer melt using a liquid metering system; (C) using one or more static mixers (e.g., up to forty static mixers) to substantially uniformly mix (e.g., homogeneously mix) the polymer melt and the liquid colorant; and (D) feed the uniformly mixed and colored polymer melt into a spinning machines that turns the polymer into filament for use in manufacturing carpet, rugs, and other products.

A method of manufacturing a plurality of colors of bulked continuous carpet filament from a single multi-screw extruder which, in various embodiments, comprises: (A) passing PET through an extruder that melts the PET and purifies the resulting PET polymer melt; (B) adding a liquid colorant to the polymer melt using a liquid metering system; (C) using one or more static mixers (e.g., up to forty static mixers) to substantially uniformly mix (e.g., homogeneously mix) the polymer melt and the liquid colorant; and (D) feed the uniformly mixed and colored polymer melt into a spinning machines that turns the polymer into filament for use in manufacturing carpet, rugs, and other products.

The present invention is directed to a method and a system for the production of at least one polymeric yarn comprising means for mixing a polymer (1) with a first solvent yielding a mixture; means for homogenizing the mixture; means for rendering the mixture inert (21, 22, 23); means for dipping the mixture into a quenching bath (30), wherein an air gap is maintained before the mixture reaches the quenching bath (30) liquid surface forming at least one polymeric yarn; means for drawing (41) the at least one polymeric yarn at least once; means for washing (5) the at least one polymeric yarn with a second solvent that is more volatile than the first solvent; means for heating the at least one polymeric yarn (6); means for drawing at room temperature (7) the at least one polymeric yarn at least once; and means for heat drawing (8) the at least one polymeric yarn at least once. The instant invention also concerns a system and method of dosing a polymer mixture with a first solvent into an extruder (26), a device (5), a system and a method of solvent extraction from at least one polymeric yarn, and a method and system of mechanical pre-recovery (4) of at least one liquid in at least one polymeric yarn.