pointsman
Civil/Environmental
- Oct 8, 2024
- 7
Good morning to everyone from a long time lurker and first time poster.
I’m working on a design to pump water from a lake for industrial use in a mountainous region, spanning a few dozen miles. The distribution system consists of a long main with branches leading to each point of use. The network will have typical distribution system elements such as booster stations, pressure reducing valves, pressure release valves, control valves (such as flow limiting and float valves), air release valves, water tanks, and hydrants. The system will be entirely constructed new.
The source water will be from an impounded lake, which appears to be eutrophic. A series of samples taken one day in summer showed suspended solids in the lake up to around 2 to 50 mg/L, with lower concentrations at the surface. Algal growth is present and I don’t know if blooms occur. Upper strata are oxygenated and lower strata are anoxic.
The project currently only provides for coarse screening of the raw water, since the client plans to treat the water according to their needs at the points of use. Therefore we are currently planning to pump this raw lake water through an extensive pipe network without any pretreatment except for the coarse screening. A quick calculation shows that with our flow rate of 150 l/s, that would be up to 650 kg of solids pumping into the piping network every day, which gives me some pause, starting with wye filters around the network.
Our supplier of the control valves advises wye filters (2 mm mesh) upstream of each control and pressure reducing valve, and I can imagine a scenario in which these filters are frequently blocked by lake solids. I could try to substitute a number of these valves, but some will be necessary due to the high grades present.
I’m also wondering about sedimentation in the lines during periods of downtime, and subsequent regurgitation of sediment particles if a flow disruption (eg. pump trip, valve slam) occurs.
Biological growth (biofilm, mussels) is also on my mind. Long tracts of the pipe line (HDPE) will be above ground, exposed to ambient heat (about 40F to 100F).
I’m considering providing finer screening of the raw water, such as a pipeline strainer with a 2 mm mesh, to limit blocking of the downstream wye filters for the control valves. However I want to be sure that I’m not missing the bigger picture, in the case that more extensive treatment to clean up the source water is needed.
This kind of system is new to me -- my experience is moreso with clean water systems. The closest experience I have this would be an effluent water supply system from a wastewater treatment plant, however that system was not nearly as extensive.
I would appreciate any guidance regarding the design of this type of system.
I’m working on a design to pump water from a lake for industrial use in a mountainous region, spanning a few dozen miles. The distribution system consists of a long main with branches leading to each point of use. The network will have typical distribution system elements such as booster stations, pressure reducing valves, pressure release valves, control valves (such as flow limiting and float valves), air release valves, water tanks, and hydrants. The system will be entirely constructed new.
The source water will be from an impounded lake, which appears to be eutrophic. A series of samples taken one day in summer showed suspended solids in the lake up to around 2 to 50 mg/L, with lower concentrations at the surface. Algal growth is present and I don’t know if blooms occur. Upper strata are oxygenated and lower strata are anoxic.
The project currently only provides for coarse screening of the raw water, since the client plans to treat the water according to their needs at the points of use. Therefore we are currently planning to pump this raw lake water through an extensive pipe network without any pretreatment except for the coarse screening. A quick calculation shows that with our flow rate of 150 l/s, that would be up to 650 kg of solids pumping into the piping network every day, which gives me some pause, starting with wye filters around the network.
Our supplier of the control valves advises wye filters (2 mm mesh) upstream of each control and pressure reducing valve, and I can imagine a scenario in which these filters are frequently blocked by lake solids. I could try to substitute a number of these valves, but some will be necessary due to the high grades present.
I’m also wondering about sedimentation in the lines during periods of downtime, and subsequent regurgitation of sediment particles if a flow disruption (eg. pump trip, valve slam) occurs.
Biological growth (biofilm, mussels) is also on my mind. Long tracts of the pipe line (HDPE) will be above ground, exposed to ambient heat (about 40F to 100F).
I’m considering providing finer screening of the raw water, such as a pipeline strainer with a 2 mm mesh, to limit blocking of the downstream wye filters for the control valves. However I want to be sure that I’m not missing the bigger picture, in the case that more extensive treatment to clean up the source water is needed.
This kind of system is new to me -- my experience is moreso with clean water systems. The closest experience I have this would be an effluent water supply system from a wastewater treatment plant, however that system was not nearly as extensive.
I would appreciate any guidance regarding the design of this type of system.