초록 ▼

A powered in-line blender for mixing additives to sludges or other flowable liquid/solid mixtures. The blender is particularly useful in a method of blending polymer to municipal sewage sludges to improve the dewatering characteristics, and thus improving total costs for dewatering, handling, and di

A powered in-line blender for mixing additives to sludges or other flowable liquid/solid mixtures. The blender is particularly useful in a method of blending polymer to municipal sewage sludges to improve the dewatering characteristics, and thus improving total costs for dewatering, handling, and disposal.

대표청구항 ▼

What is claimed is: 1. A method comprising: (a) providing an in-line blender downstream of a sludge pump and upstream of a sludge dewatering apparatus, said in-line blender comprising (1) a blender housing, said blender housing having an inlet, an outlet, and a mixer mounting nozzle, (2) a mixer dr

What is claimed is: 1. A method comprising: (a) providing an in-line blender downstream of a sludge pump and upstream of a sludge dewatering apparatus, said in-line blender comprising (1) a blender housing, said blender housing having an inlet, an outlet, and a mixer mounting nozzle, (2) a mixer drive affixed to said mixer mounting nozzle, and (3) an impeller, mounted in cantilever configuration for rotation within said housing, said impeller having a rotating shaft extending along a longitudinal axis, from said mixer drive to a distal end, said impeller having a plurality of blades attached to said rotating shaft, said rotating shaft having an axially outermost blade and an axially innermost blade, said innermost blade having a proximal end located spaced apart from but closely adjacent said mixer drive, wherein said plurality of blades are configured to assure that, along the shaft axis, blades overlap lengthwise, so that within said housing, including from said proximal end of said innermost blade to said distal end of said rotating shaft, a bare rotating shaft is substantially avoided, so that by when in operation, ragging is prevented; (b) adjustably fixing the speed of the impeller of said in-line blender; and (c) combining an additive with said sludge at said in-line blender. 2. The method as set forth in claim 1, further comprising adjustably fixing the rate of addition of said additive. 3. The method as set forth in claim 1, further comprising dewatering the sludge in said dewatering apparatus. 4. The method as set forth in claim 3, wherein said dewatering apparatus comprises filtration. 5. The method as set forth in claim 1, wherein said dewatering apparatus comprises a centrifuge. 6. The method as set forth in claim 1, further characterized in that the sludge is a municipal wastewater treatment sludge. 7. The method of claim 1, wherein adjustably fixing said speed of said impeller includes providing a controller for manually or automatically varying the rotational speed of the impeller of said in-line blender. 8. The method of claim 2, further comprising providing an additive controller, said additive controller suitable for varying the rate of addition of additive. 9. The method as set forth in claim 1, wherein said additive is a polymer. 10. The method as set forth in claim 1, wherein adjustably fixing the rotational speed of the impeller provides for control of the amount of mixing work performed on said additive with respect to said sludge. 11. The method as set forth in claim 7, wherein the controller is responsive to torque developed by the blender impeller, for operating the mixer drive in response to said torque. 12. The method as set forth in claim 7, wherein the controller comprises a load sensor for measuring load on the in-line blender. 13. A method comprising: (a) providing an in-line blender, said in-line blender located between a pump and a dewatering apparatus and in fluid communication with each; (b) providing a reagent to be added to a sludge for improving the dewatering characteristics thereof; (c) measuring input variables, including (1) a rate of flow of said sludge to be dewatered, (2) water content of said sludge, (3) a flow rate of said reagent to be mixed with the sludge, and (4) water content of the reagent stream (5) a mixing rate, as measured by rotational speed of said blender; (d) measuring output variables, including (1) sludge cake flow rate, (2) sludge cake dryness, (3) output water flow rate, and (4) solids content of output water, which variables are measured as achieved after dewatering the sludge after blending said reagent with said sludge; (e) locating an operating point resulting from the previous measurements during operation to determine a characteristic operational range, (f) adjustably fixing a reagent flow rate, the reagent application rate, and the mixing rate, so as to bring the in-line blender and reagent application operating point into a range considered to be a stable and optimal operating range for mixing the sludge/polymer blend; and (g) depending on the results of the dewatering of the sludge from the inputs on the sludge flow rate, the reagent flow rate, and mixing rate, optimizing the input variables to achieve a desirable throughput and sludge dryness result, in order to attain preselected economic and product specification goals. 14. The method as set forth in claim 13, wherein the reagent comprises a polymer.