Methods of creating soft and lofty nonwoven webs

What is claimed is: 1. A method of manufacturing a soft and lofty continuous fiber nonwoven web, the method comprising: providing molten polymer to a spinneret defining a plurality of orifices; flowing a fluid intermediate the spinneret and a moving porous member, wherein the moving porous member is positioned below the spinneret; using the fluid to draw or push the molten polymer, in a direction that is toward the moving porous member, through at least some of the plurality of orifices to form a plurality of individual continuous fiber strands; depositing the continuous fiber strands on the moving porous member at a first location to produce an intermediate continuous fiber nonwoven web; first removing some of the fluid under the first location; second removing and/or diverting some of the fluid proximate to, but downstream of, the first location to maintain loft and softness in the deposited intermediate continuous fiber nonwoven web; reorienting the continuous fibers of the intermediate continuous fiber nonwoven web downstream of the first location; providing a perforated roll or perforated plate downstream of the first location and proximate to the intermediate continuous fiber nonwoven web; and flowing a heated fluid through the perforations to intermittently pre-bond portions of the continuous fibers of the intermediate continuous fiber nonwoven web together. 2. The method of claim 1 , comprising blowing-off the second removed fluid downstream of the first location. 3. The method of claim 2 , comprising: providing a fluid handling roll proximate to the first location to accomplish the removing step and the blowing-off step, the fluid handling roll comprising: an outer shell; and a plurality of fluid ports defined in the outer shell; rotating the fluid handling roll about a rotational axis; wherein the fluid handling roll comprises a vacuum zone proximate to the first location and a blow-off zone downstream of the first location; creating a negative fluid pressure in the fluid ports in the vacuum zone to remove the fluid proximate to the first location; and creating a positive fluid pressure in the fluid ports in the blow-off zone to blow-off the removed fluid downstream of the first location. 4. The method of claim 1 , wherein the moving porous member comprises a porous screen or mesh, the method comprising creating a negative fluid pressure in the moving porous member. 5. The method of claim 1 , wherein the pre-bonds are intermittent in a machine direction and a cross-machine direction. 6. The method of claim 1 , comprising: third removing and/or diverting the fluid from the intermediate continuous fiber nonwoven web downstream of the first location to shield the intermediate continuous fiber nonwoven web from surrounding fluids. 7. The method of claim 6 , comprising: reducing vacuum forces applied to the intermediate continuous fiber nonwoven web during the third removing and/or diverting step. 8. The method of claim 6 , wherein the diverting step comprises providing an elongated plate or an elongated conveyor extending in a general direction of the moving porous member, and wherein the elongated plate or the elongated conveyer is positioned over at least a portion of the moving porous member. 9. The method of claim 8 , wherein the elongated plate or the elongated conveyor is angled with respect to a machine direction of the moving porous member in the range of about −40 degree to about 40 degrees, and wherein the elongated plate or the elongated conveyor is spaced a distance in the range of 0.5 mm to about 15 mm from the moving porous member. 10. The method of claim 1 , comprising conveying the intermediate continuous fiber nonwoven web through a through-fluid bonding oven to form a continuous fiber nonwoven web. 11. The method of claim 1 , wherein the moving porous member comprises at least one portion that is non-porous. 12. A method of creating a soft and lofty continuous fiber nonwoven web, the method comprising: providing two molten polymer components having different melting temperatures to a spinneret defining a plurality of orifices; flowing a fluid intermediate the spinneret and a moving porous member, wherein the moving porous member is positioned below the spinneret; using the fluid to draw or push the two molten polymer components, in a direction that is toward the moving porous member, through at least some of the plurality of orifices to form a plurality of individual bi-component continuous fiber strands; depositing the continuous fiber strands on the moving porous member at a first location to form an intermediate continuous fiber nonwoven web; applying a liquid or moisturized fluid to a non-porous moving member surface of the intermediate continuous fiber nonwoven web downstream of the first location; first removing some of the fluid under the first location; second removing and/or diverting some of the fluid proximate to the first location to maintain loft and softness in the deposited intermediate continuous fiber nonwoven web; and third removing and/or diverting the fluid from the intermediate continuous fiber nonwoven web downstream of the first location. 13. The method of claim 12 , comprising through-fluid bonding the intermediate continuous fiber nonwoven web to form a continuous fiber nonwoven web. 14. A method of manufacturing a soft and lofty continuous fiber nonwoven web, the method comprising: providing molten polymer to a spinneret defining a plurality of orifices; flowing a fluid intermediate the spinneret and a moving porous member, wherein the moving porous member is positioned below the spinneret; using the fluid to draw or push the molten polymer, in a direction that is toward the moving porous member, through at least some of the plurality of orifices to form a plurality of individual continuous fiber strands; depositing the continuous fiber strands on the moving porous member at a first location to produce an intermediate continuous fiber nonwoven web; first removing some of the fluid under the first location; second removing and/or diverting some of the fluid proximate to, but downstream of, the first location to maintain loft and softness in the deposited intermediate continuous fiber nonwoven web; third removing and/or diverting the fluid from the intermediate continuous fiber nonwoven web downstream of the first location; and reorienting the continuous fibers of the intermediate continuous fiber nonwoven web downstream of the first location. 15. The method of claim 14 , comprising through-fluid bonding the intermediate continuous fiber nonwoven web to form a continuous fiber nonwoven web.