A sanitary manhole (sewer manhole, [1] sanitary sewer manhole [2] or sewer maintenance hole [3] ) is a manhole that is used as an access point for maintenance and inspection of an underground sanitary sewer system. Sanitary manholes are sometimes used as vents to prevent the buildup of pressurized sewage gas. [4] Additionally, they are used for debris removal, and application of chemicals such as degreaser and insecticide. [5]
When underground sewer lines are laid close to the ground level (this may be at the depths of less than 0.75 metres (2.5 ft) or 2 metres (6.6 ft) depending on local regulations), an inspection chamber is used as an access point instead. [6] [7] Inspection chambers allow access to sewer lines without requiring a person to get in them. [6]
Sanitary manholes should be constructed at locations where there is a change from a simple straight sewer line. These include all junctions that combine multiple lines into one or split from one, bends, changing in elevation, changing in pipe size, and changing in pipe type. [5]
For straight sewer lines, there is no universal agreement on spacing requirements of sanitary manholes for such lines. Historically, in business cores of urban areas in the United States, manholes may be placed at each and every street block, 300 to 400 feet (91 to 122 m) apart. [8] A more modern guideline in the United States suggested to have them every 400 feet (120 m) for small diameter sewers, and every 500 feet (150 m) for larger sewer mains. [5] Similar spacing guidelines of 120 m and 150 m can be seen in Canada with specificities on sewer diameters. [9] England sets maximum spacing at 90 metres (300 ft). The only exception is for sewers with diameters larger than human heights. Those can have spacing up to 200 metres (660 ft). [10] Maximum spacing of 100 metres (330 ft) is used in Scotland. [11] The 120-metre (390 ft) requirement is used in Brazil, [12] and 150-metre (490 ft) in South Africa. [13]
Historically, sanitary manholes were built in one piece by bricks. A large circular concrete was built at the bottom to form smooth channels for sewage to pass through. Brick wall was laid to raise up to be closer to the ground level. In this section, the wall diameters could be gradually smaller. Near the top, the brick wall diameters were rapidly reduced, forming a cone shape to meet a smaller diameter cover. A ladder of iron rungs was built on to the wall. [8]
Modern sanitary manholes have five main sections from the bottom to the top. The base section is where the channels are located. The barrel section, also known as chamber, sits on top of the base. It is a straight section instead of being gradually narrower like in older manholes. The heights of this section vary depending on the depths of the manholes. Near the top is the cone section where it reduces from the size of the chamber to the size of the cover. Chimney section, also known as shaft, is a straight and narrow section that sits on top of the cone section but below the cover. The last is the cover section. [14] [15] [16]
A main component of the base section is a channel that provides a smooth conduit for wastewater to flow from inlet pipe to outlet pipe. The channel is in a U shape formed by a "half pipe" as if a pipe is cut in half and left with the bottom half. The width of the channel should match the inside diameter of the inlet and outlet pipes. The lowest point of the channel is called the invert. The invert should have a slope to allow wastewater to pass through easily. The channels should be straight between the inlet and the outlet. If a direction change is needed, a channel should be continuously curved instead of having sharp corners. When joining from multiple inlets, the joint should provide a smooth transition with curves. The surface area from the manhole wall to the top of the channel is a bench. The bench should have a slope to direct water back down to the channel. The bench can be in one of the two configurations based on the lowest point of the bench that meets the channel. If the depth of the channel from the that point to the invert is half of the channel's width, it is a half bench. If the depth is the channel's width, it is a full bench. In the full bench configuration, the point from lowest part of the bench (the top of the channel) to the point that the channel shape is changed to form a U shape is a straight drop. Designing and constructing the channel and the bench should be done in high quality to reduce scouring which is a result of abrasive solids in wastewater that pass through with high velocities causing scour abrasion to degrade invert materials. [17]
The chamber section can be built in various materials. In the 19th century, manholes in the United States were built with bricks and mortar or stone. In the mid-20th century, precast concrete was introduced. In the late-20th century cast-in-place concrete was used. Newer materials such as HDPE, concrete with corrosion reducing additives and plastics are used. [16] Currently, precast concrete is the most common material for new manholes, but bricks and concrete blocks are still used in special situations such as when the work sites are in small area which are unsuitable for precast concrete lifting operations, or for chemical waste lines. [14] When constructing sanitary manholes with precast concrete, the joints that connect between precast concrete pieces should have gaskets. The construction methods, materials should conform to precast concrete manhole standards such as ASTM C478. [18]
The purpose of the cone section is to reduce the openings from large chamber sizes to small cover sizes. In a masonry manhole, the bricks form a corbel inward to reduce the opening to a desired size. [14] In precast concrete, the cone section comes in two forms, concentric and eccentric. In a concentric cone section, the top opening is in the middle of the manhole. An eccentric cone has the top opening shifted off center all the way to one side of the manhole wall. This is to allow installing permanent ladder rungs on to the manhole wall. In designing eccentric cones, the loads need to be carefully calculated as one wall is vertical wall that is aligned to the chamber wall but the opposite wall is a slope. [19] Some local regulations allow reinforced concrete slabs with a smaller opening to be used instead. [15]
The chimney section sits on top of the cone section with a smaller opening to support the frame of the cover. The section can be built with the same methods and materials as in the chamber section. The heights of the chimney can vary and as they are used to make the manhole cover to flush with the ground. [15] Grade adjustment rings can also be used on top of a cone section instead of the chimney section to adjust the frame to the required level. [20]
The cover section is the top most section of sanitary manholes. It consists of a frame and a manhole cover. [16] The covers are designed to withstand the loads of the traffic on top of the manholes. Some are suitable for vehicular traffic, and some are for foot traffic only. [7]
A common method to add a new lateral pipe to an existing sewer line without any service interruption is to use a doghouse manhole. A special precast concrete structure has two upside-down U shape openings at the bottom directly opposite of each other. It also has a hole at a higher point for a new pipe to be inserted in. To install this, the doghouse manhole is lowered to have the two openings to slide over the existing pipe. The concrete is poured in to form the base with slopes from the precast concrete wall down to the half point of the existing pipe. This forms a half bench for the manhole base. The top half of that existing pipe is cut open to form a channel. A new pipe is inserted through the wall hole. This will allow wastewater from the new pipe to drop onto the bench and slide down to the channel. The upper portion of the manhole is built on top of that section. [21]
Sanitary manholes located in wetlands, salt marshes, or floodplains are susceptible to inflow issues. These are when outside water coming in directly to sewers through manhole covers. [22] Floodplain manholes should be elevated to have their rim of the top frame above the maximum flood level to prevent the inflow. [23] When that is not possible, any manhole covers that are subject to standing water should be completely sealed. Pick holes of the covers should be plugged with small balls. Plastic or stainless steel bowls can be used to insert between the cover and the frame to prevent inflow to get down to the chamber. [5] Liners can be placed outside of floodplain manholes to reduce the inflow. [24]
When running a sewer line under a river that is prone to flooding, the heights of the elevated manholes must be higher than the maximum flood level. The elevated manholes can be higher than riverbanks and sometimes can be taller than a human. [25]
At any junction of more than one sewer, there should be a junction manhole. There are general rules that should be followed to avoid overflow. The inverts of the smaller sewers should be curved into the main sewer channel. Inside diameter of smaller inlets should be above the invert of the main sewer. However, that should not be too high off the main sewer channel. [1]
Wastewater contains a mixture of liquid and solids. Dropping solids down from an inlet pipe at a higher elevation may cause some residual not to go down the manhole channel and the outlet pipe. This can also damage the manhole. Therefore, elevation difference between the inlet pipes and outlet pipe should not be too high, for example, less than 60 centimetres (24 in). [1]
There are two methods to avoid this problem. The first method is to make the inlet sewer pipe inclined from the previous manhole. This will allow the elevation of the inlet sewer to be lower and closer to the manhole channel. A disadvantage of this method is a requirement to have deep trenching to lay the inclined pipe which may not be practical. When using this method for larger sewers (diameters larger than 45 centimetres (18 in)), additional steps are needed in order to minimize turbulence of the steep flow of larger inlet sewers by slowing the flow down. Those include creating raised structure to break up the flow. [1]
The second method is to use a drop manhole. A drop manhole is a junction manhole that is equipped with a structure to allow liquid and solids in the wastewater to smoothly drop down to the channel inside the manhole. There are two types of drop manholes, vortex and plunging drop manholes. [26]
In a vortex drop manhole, the flow from a higher elevation enters a vertical shaft that has a spiral structure. The flow spirals down the shaft to a lower elevation at the base of the manhole. While the flow travels down the structure, it clings against the outer wall of the spiral structure. The friction of such interaction causes the flow energy to be dissipated, resulting in the speeds of the flow to be under control. [26] [27]
In a plunging drop manhole, a vertical pipe is used to allow the flow from a higher elevation to drop down directly to the manhole base within that vertical pipe. [26] The vertical pipe of a plunging drop manhole (known as a drop pipe) can be configured in two ways. One way is to have the drop pipe inside the manhole. The other way is to have the drop pipe outside but next to the manhole. For outside drop pipes, there should be a clean out pipe connecting back to the manhole wall to allow inspection to upstream sewer from inside the manhole. [1]
In case that there are other utilities laid over the sewer line at the location that requires a sanitary manhole, an alternative is to build a side entrance manholes. The vertical shaft of a side entrance manhole is located at a location that does not have an obstacle. At the bottom of the manhole, there is a tunnel to connect to the sewer line laterally to allow sanitary workers to access the sewer. [1]
In larger sewers that require regular cleaning by scrapers, the access to such sewers must be through manholes with larger openings to allow cleaning equipment to be lowered. Scrapper manhole openings are with sizes between 90 and 120 centimetres (3.0 and 3.9 ft). [28] An alternative to having people to go down scraper manholes to remove sewer blockage is to use jet rodders and vacuum trucks. Those can be operated from the ground level though normal size manholes [1]
At the head of a sewer, there can be little flow that can be used to move solids in wastewater down the sewer. Additional flow may be required to flush out those deposits. This can be accomplished by having a flushing manhole at the head sewer. Flushing manholes are used to store water that can be released to flush solids in the sewers. A simple design is a manhole that allows a sanitary worker to open and close a value from the ground level to perform water filling and flushing operations. Water source for flushing manholes can come from potable water, tidal water, or water from clarifiers of sewage treatment plants [1] [29]
Infiltration and inflow (I&I) occurs when water other than wastewater enters sewer system. Infiltration is when water from the ground enters sewers through defective pipes, joints, and manholes. All sewer pipes and sanitary manholes should be sealed to prevent ground water to leak into sewer system. Inflow enters directly through opening parts of the sewer system such as vents and manhole covers. In normal operations, small amounts of infiltration and inflow are expected. When those amounts are excessive, they could cause sewer system to have surcharges, higher operational costs to transport and treat higher than design wastewater volumes, or sanitary sewer overflow. [31]
A preventative measure is to regularly test sewers and manholes. A few methods have been used to perform I&I tests. Historically, water testing was used. This can be an infiltration or exfiltration test which would block a certain section of sewers for a duration of a test, typically 24 hours. Infiltration testing is to use a weir as a device for flow measurement. The measurement showed the amount of infiltration and inflow in the system. Exfiltration testing uses water to fill up a manhole and measurements are taken to detect leaks. In a modern time, vacuum testing is performed to check integrity of manholes and identify for leaks. [32] Another common testing method is smoke testing. In this method, sandbags are used to seal a sewer section, then smoke is pumped into a manhole. Any leaks can be observed by visible smoke at the areas of the leaks. [33]
Rainfalls can induce excessive infiltration and inflow. [31] When that starts to create a sanitary sewer overflow, and immediate action is required. One method is to use pumps to take water of affected manholes. Given that rain water is mixed with wastewater, the pumped water needs to be contained and transported to a sewage treatment plant. [34]
Sanitary sewer overflow is a condition in which untreated sewage is discharged from a sanitary sewer into the environment prior to reaching sewage treatment facilities. Manholes are common locations of sanitary sewer overflows. The causes of overflows may be from excessive infiltration and inflow, or blockages. In case of a blockage, manholes need to be inspected. Typically, the blockage happens between the manhole with an overflow and the next downstream manhole. A downstream manhole with less than expected inlet flow or dry indicates a blockage upstream of it. To solve a blockage, a sand trap is placed in the channel at the outlet of the downstream manhole in order to catch any debris while allowing water to go over it to the outlet pipe. Then a jet flushing or power rodding is used to clan from the outlet pipe of the upstream manhole in an attempt to dislodge the blockage which will be caught at the sand trap of the downstream manhole. [35]
Many manholes may appeared to be uplifted from the ground after an earthquake. This damages sewer infrastructure, creates road obstacles, and prolongs a disaster recovery process. There are two causes of uplifted manholes. [36]
The first cause is soil liquefaction. Saturated loose soils can loses strength and stiffness in response to an applied stress such as shaking during an earthquake. The soils cannot drain pore water fast enough in a repeated compression causing the pore water pressure to be accumulated to a high pressure. This causes the soils to lose their stress and become muddy. Any objects with apparent weights of less than of those of the ground's muddy water will float up. Manholes, which are sealed hollowed objects with lower apparent weights, will be forced to push upward after a soil liquefaction. A solution to prevent manholes to be uplifted is to create drain plugs throughout a manhole wall. The plugs have screens to prevent dirts but allow water to drain through. The pressure-sensitive plugs are calibrated to hold water up to a certain pressure level which is higher than normal ground water pressure. Once the pore water pressure is increased to higher than that level due to an earthquake, the plugs will be released into the manhole and the water from the surrounding soils can be drained into the manhole, preventing soil liquefaction. [36]
The second cause is broken seals at the manhole joints due shifting of the ground causing an inflow of the sediments surrounding the manholes to enter through the joints. This results in sunken roads and the sediments fill up manholes and sewers. This is not an uplift of a manhole but rather a subsidence of an area next to a manhole. A solution to this to have a flexible and watertight sheet attached over each joint on the inside wall of the manhole. When the ground is shifted, the sheets can still provide sealed barriers at the shifted joints, preventing inflow of the sediments. [36]
Sewerage is the infrastructure that conveys sewage or surface runoff using sewers. It encompasses components such as receiving drains, manholes, pumping stations, storm overflows, and screening chambers of the combined sewer or sanitary sewer. Sewerage ends at the entry to a sewage treatment plant or at the point of discharge into the environment. It is the system of pipes, chambers, manholes or inspection chamber, etc. that conveys the sewage or storm water.
A manhole is an opening to a confined space such as a shaft, utility vault, or large vessel. Manholes, typically protected by a manhole cover, are often used as an access point for an underground public utility, allowing inspection, maintenance, and system upgrades. The majority of underground services have manholes, including water, sewers, telephone, electricity, storm drains, district heating, and gas.
A sanitary sewer is an underground pipe or tunnel system for transporting sewage from houses and commercial buildings to a sewage treatment plant or disposal.
A storm drain, storm sewer, highway drain, surface water drain/sewer, or stormwater drain is infrastructure designed to drain excess rain and ground water from impervious surfaces such as paved streets, car parks, parking lots, footpaths, sidewalks, and roofs. Storm drains vary in design from small residential dry wells to large municipal systems.
A grinder pump is a wastewater conveyance device. Waste from water-using household appliances flows through the home’s pipes into the grinder pump’s holding tank. Once the wastewater inside the tank reaches a specific level, the pump will turn on, grind the waste into a fine slurry, and pump it to the central sewer system or septic tank.
A combined sewer is a type of gravity sewer with a system of pipes, tunnels, pump stations etc. to transport sewage and urban runoff together to a sewage treatment plant or disposal site. This means that during rain events, the sewage gets diluted, resulting in higher flowrates at the treatment site. Uncontaminated stormwater simply dilutes sewage, but runoff may dissolve or suspend virtually anything it contacts on roofs, streets, and storage yards. As rainfall travels over roofs and the ground, it may pick up various contaminants including soil particles and other sediment, heavy metals, organic compounds, animal waste, and oil and grease. Combined sewers may also receive dry weather drainage from landscape irrigation, construction dewatering, and washing buildings and sidewalks.
The United States Environmental Protection Agency (EPA) Storm Water Management Model (SWMM) is a dynamic rainfall–runoff–subsurface runoff simulation model used for single-event to long-term (continuous) simulation of the surface/subsurface hydrology quantity and quality from primarily urban/suburban areas.
First flush is the initial surface runoff of a rainstorm. During this phase, water pollution entering storm drains in areas with high proportions of impervious surfaces is typically more concentrated compared to the remainder of the storm. Consequently, these high concentrations of urban runoff result in high levels of pollutants discharged from storm sewers to surface waters.
Sanitary sewer overflow (SSO) is a condition in which untreated sewage is discharged from a sanitary sewer into the environment prior to reaching sewage treatment facilities. When caused by rainfall it is also known as wet weather overflow. Causes of sanitary sewer overflows include: Blockage of sewer lines, infiltration/Inflow of excessive stormwater into sewer lines during heavy rainfall, malfunction of pumping station lifts or electrical power failure, broken sewer lines. Prevention of such overflow events involves regular maintenance and timely upgrades of infrastructure.
A vacuum sewer or pneumatic sewer system is a method of transporting sewage from its source to a sewage treatment plant. It maintains a partial vacuum, with an air pressure below atmospheric pressure inside the pipe network and vacuum station collection vessel. Valves open and reseal automatically when the system is used, so differential pressure can be maintained without expending much energy pumping. A single central vacuum station can collect the wastewater of several thousand individual homes, depending on terrain and the local situation.
A grease trap is a plumbing device designed to intercept most greases and solids before they enter a wastewater disposal system. Common wastewater contains small amounts of oils which enter into septic tanks and treatment facilities to form a floating scum layer. This scum layer is very slowly digested and broken down by microorganisms in the anaerobic digestion process. Large amounts of oil from food preparation in restaurants can overwhelm a septic tank or treatment facility, causing the release of untreated sewage into the environment. High-viscosity fats and cooking grease such as lard solidify when cooled, and can combine with other disposed solids to block drain pipes.
Simplified sewerage, also called small-bore sewerage, is a sewer system that collects all household wastewater in small-diameter pipes laid at fairly flat gradients. Simplified sewers are laid in the front yard or under the pavement (sidewalk) or - if feasible - inside the back yard, rather than in the centre of the road as with conventional sewerage. It is suitable for existing unplanned low-income areas, as well as new housing estates with a regular layout. It allows for a more flexible design. With simplified sewerage it is crucial to have management arrangements in place to remove blockages, which are more frequent than with conventional sewers. It has been estimated that simplified sewerage reduces investment costs by up to 50% compared to conventional sewerage.
A Buchan trap is a device fitted in a domestic sewer pipe to prevent odours entering the pipe from the public sewer and permeating the house, a common problem before individual plumbing fittings were separately trapped. The trap is made from fireclay and uses a water seal to prevent air passing from the sewer to the pipe. Waste flows from the house through a U-bend in the trap. This means that there is always water in the pipe preventing the passage of anything from the other direction. The device is a large clay U-bend with an air-inlet/access point on the 'house' side. It is located below the ground level, but can be accessed through the air-inlet and sometimes a rodding hole.
Sewage is a type of wastewater that is produced by a community of people. It is typically transported through a sewer system. Sewage consists of wastewater discharged from residences and from commercial, institutional and public facilities that exist in the locality. Sub-types of sewage are greywater and blackwater. Sewage also contains soaps and detergents. Food waste may be present from dishwashing, and food quantities may be increased where garbage disposal units are used. In regions where toilet paper is used rather than bidets, that paper is also added to the sewage. Sewage contains macro-pollutants and micro-pollutants, and may also incorporate some municipal solid waste and pollutants from industrial wastewater.
Infiltration/Inflow is the process of groundwater, or water from sources other than domestic wastewater, entering sanitary sewers. I/I causes dilution in sanitary sewers, which decreases the efficiency of treatment, and may cause sewage volumes to exceed design capacity. Although inflow is technically different from infiltration, it may be difficult to determine which is causing dilution problems in inaccessible sewers. The United States Environmental Protection Agency defines the term infiltration/inflow as combined contributions from both.
The Parshall flume is an open channel flow-metering device that was developed to measure the flow of surface water and irrigation flow. The Parshall flume is a modified version of the Venturi flume. Named after its creator, Dr. Ralph L. Parshall of the U.S. Soil Conservation Service, the Parshall flume is a fixed hydraulic structure used in measuring volumetric flow rate in surface water, industrial discharges, municipal sewer lines, and influent/effluent flows in wastewater treatment plants. The Parshall flume accelerates the flow by contracting both the parallel sidewalls and a drop in the floor at the flume throat. Under free-flow conditions, the depth of water at a specified location upstream of the flume throat can be converted to a rate of flow. Some states specify the use of Parshall flumes, by law, for certain situations. Differences between the Venturi and Parshall flume include reduction of the inlet converging angle, lengthening the throat section, reduction of the discharge divergence angle, and introducing a drop through the throat.
The Cutthroat flume is a class of flow measurement flume developed during 1966/1967 that is used to measure the flow of surface waters, sewage flows, and industrial discharges. Like other flumes, the Cutthroat flume is a fixed hydraulic structure. Using vertical sidewalls throughout, the flume accelerates flow through a contraction of sidewalls until the flow reaches the "throat" of the flume, where the flow is then expanded. Unlike the Parshall flume, the Cutthroat flume lacks a parallel-walled throat section and maintains a flat floor throughout the flume.
A fatberg is a rock-like mass of waste matter in a sewer system formed by the combination of flushed non-biodegradable solids with fat, oil, and grease (FOG) deposits. The handling of FOG waste and the buildup of its deposits are a long-standing problem in waste management, with "fatberg" a more recent neologism. Fatbergs have formed in sewers worldwide, with the rise in usage of disposable cloths. Several prominent examples were discovered in the 2010s in Great Britain, their formation accelerated by aging Victorian sewers. Fatbergs are costly to remove, and they have given rise to public awareness campaigns about flushable waste.
Packaged metering manholes (PMMs) are an outgrowth of the fiberglass manholes developed in the 1960s. Packaged metering manhole factories integrate a primary device (typically a flume or weir) into a fiberglass manhole.
A gravity sewer is a conduit utilizing the energy resulting from a difference in elevation to remove unwanted water. The term sewer implies removal of sewage or surface runoff rather than water intended for use; and the term gravity excludes water movement induced through force mains or vacuum sewers. Most sewers are gravity sewers because gravity offers reliable water movement with no energy costs wherever grades are favorable. Gravity sewers may drain to sumps where pumping is required to either force sewage to a distant location or lift sewage to a higher elevation for entry into another gravity sewer, and lift stations are often required to lift sewage into sewage treatment plants. Gravity sewers can be either sanitary sewers, combined sewers, storm sewers or effluent sewers.
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