Membrane wastewater treatment of combined sewer overflows and sanitary sewer overflows

We claim: 1. A wastewater treatment system including biological treatment of sanitary sewage, the system including sewerage carrying wastewater to a biological treatment plant, and the system being subject to occasional overflows beyond capacity of the sewerage or of the biological treatment plant, comprising: the biological treatment plant including a liquid side with biological treatment of an incoming stream of wastewater, upstream of the biological wastewater treatment plant, a diverter for overflow wastewater beyond capacity of the sewerage or of the biological wastewater treatment plant, the overflow wastewater containing biological nutrients, a screen positioned to screen the overflow wastewater, and at least one non-biological and non-chemical/biological overflow treatment plant, positioned to receive the overflow wastewater from the diverter during a period of an overflow, each non-biological overflow treatment plant including means for coagulating the screened overflow wastewater, and a membrane tank receiving the wastewater, the tank having submerged membranes through which coagulated wastewater is directed, the membranes being of a pore size sufficiently small to separate out and reduce bacteria, the non-biological overflow treatment plant being without activated carbon or zeolite treatment, whereby each non-biological overflow treatment plant produces a physically treated permeate outflow greatly reduced in bacteria and solids, without requiring activated carbon or zeolite treatment. 2. The wastewater system of claim 1 , wherein each non-biological overflow treatment plant includes means for moving screened material from the screen and adding the screened material to the incoming stream of wastewater to the biological treatment plant. 3. The wastewater system of claim 1 , including means for moving solids separated out from the overflow wastewater by the membranes to the incoming stream of wastewater to the biological treatment plant. 4. The wastewater system of claim 1 , wherein the biological treatment plant is a solely sanitary sewage treatment plant. 5. The wastewater system of claim 1 , wherein the biological treatment plant is a combined sewage treatment facility, receiving sanitary sewage as well as storm water. 6. The wastewater system of claim 1 , wherein the pore size of the membranes in the at least one non-biological overflow treatment plant is in the range of about 0.1 to 0.5 microns. 7. The wastewater system of claim 1 , wherein in each non-biological overflow treatment plant the pore size of the membranes is sufficiently small to remove essentially all bacteria. 8. The wastewater system of claim 1 , wherein the screen is positioned upstream of the diverter. 9. The wastewater system of claim 1 , wherein in each non-biological overflow treatment plant the means for coagulating comprises means for adding a coagulant to the screened wastewater upstream of the membrane tank, providing for coagulation to take place in the membrane tank. 10. The wastewater system of claim 1 , wherein in each non-biological overflow treatment plant the membrane tank is an open tank and includes in the membrane tank a flusher device that fills with wastewater when the membrane tank receives wastewater during a period of an overflow, and releases a sudden flush of wastewater after the period of overflow, as the membrane tank drains, thus removing and draining debris from the tank. 11. The wastewater system of claim 1 , further including at least one non-biological first flush stormwater treatment plant receiving first flush stormwater from sewers or runoff streams for a set period of time after onset of a rainfall, irrespective of any overflow event, for treatment of the first flush stormwater containing a concentration of toxic materials, the at least one non-biological first flush stormwater treatment plant each including means for coagulating the overflow wastewater, and a membrane tank receiving the wastewater, the tank having submerged membranes through which coagulated wastewater is directed, the membranes being of a pore size sufficiently small to separate out and reduce bacteria, the at least one non-biological first flush stormwater treatment plant each being without activated carbon or zeolite treatment. 12. The wastewater treatment system of claim 1 , wherein the submerged membranes constitute a sole means of reducing bacteria in the screened overflow wastewater, without disinfectant or other post-treatment. 13. A facility comprising a non-biological wastewater treatment plant for treatment of overflow in a sewerage system or for treating first flush stormwater, comprising: a diverter upstream of the non-biological treatment plant for diverting wastewater beyond capacity of the sewerage system or of a biological wastewater treatment plant, the non-biological wastewater treatment plant comprising: a screen positioned downstream of the diverter to screen incoming wastewater which contains biological nutrients, means for coagulating the screened wastewater downstream of the screen, and a membrane tank receiving the screened and coagulated wastewater, the tank having submerged membranes through which the screened and coagulated wastewater is directed, the membranes being of a pore size sufficiently small to separate out and substantially eliminate bacteria, as a sole means of eliminating bacteria and nutrients in the screened and coagulated wastewater, whereby the non-biological wastewater treatment plant produces a physically treated permeate outflow to meet overflow discharge requirements. 14. The non-biological wastewater treatment plant of claim 13 , wherein the pore size of the membranes in the non-biological wastewater treatment plant is in the range of about 0.1 to 0.5 microns. 15. A wastewater treatment system including biological treatment of sanitary sewage, the system including sewerage carrying wastewater to a biological treatment plant, and the system being subject to occasional overflows beyond capacity of the sewerage or the biological treatment plant, comprising: the biological treatment plant including a liquid side with biological treatment of an incoming stream of wastewater, upstream of the biological wastewater treatment plant, a diverter for overflow wastewater beyond capacity of the sewerage or of the biological wastewater treatment plant, the overflow wastewater containing biological nutrients, a screen positioned to screen the overflow wastewater, at least one non-biological overflow treatment plant, positioned to receive the overflow wastewater from the diverter during a period of an overflow, each non-biological overflow treatment plant including means for coagulating the screened overflow wastewater, and a membrane tank receiving the wastewater, the tank having submerged membranes through which coagulated wastewater is directed to produce a permeate outflow, the membranes being of a pore size sufficiently small to separate out bacteria, the non-biological overflow treatment plant being without activated carbon or zeolite treatment, and means for adding a disinfectant to the permeate outflow, whereby each non-biological overflow treatment plant produces a physically treated and disinfected permeate outflow greatly reduced in bacteria and solids without requiring activated carbon or zeolite treatment. 16. The wastewater treatment system of claim 15 , wherein the pore size of the membranes in each non-biological overflow treatment plant is in the range of about 0.1 to 0.5 microns. 17. A method for treating an overflow in a system of sewerage