=== Technology ===
==== Pretreatment and Grease Management ====
Pretreatment or grease management is necessary in several fields of wastewater treatment. Below is a list of such circumstances:
*'''Markets:''' The production of large amounts of solid waste on markets calls for trash traps that prevent solid waste from flowing down the drains and causing drainage problems.
**[[Practitioner's Tool / Planning and Promotions / Step 6: Determining Pretreatment Needs – Markets|Pretreatment for Markets]]
**[[Costs_for_Sanitation_Options_-_Markets|Costs for Sanitation Options]]
*'''Food Service (Grease):''' Restaurants generate grease that can clog pipes and add to waste loads. Grease traps or interceptors must be used to prevent clogging.<br />
**[[Practitioner's Tool / Planning and Promotions / Step 4: Determining Pretreatment Needs – Grease|Grease traps and interceptors for restaurants]]
**[http://www.susana.org/en/resources/library/details/2470 Grease Interceptor Sizing Tool (.xlsm File 03)]
*'''Laundries:''' Commercial laundries generate lint, or small bits of fabric, that can clog pipes and increase pollution loading. Simple lint trap devices are used to remove lint before it can flow down the drain.
**[[Practitioner's Tool / Planning and Promotions / Step 5: Determining Pretreatment Needs – Commercial laundry services|Lint traps for laundries and Best Management Practices (BMPs)]]
==== Sewers ====
Sewers transport waste away from businesses, homes and other sources to septic tanks, other treatment systems, or community sewers. They are constructed out of plastic, clay or iron pipe and laid at a constant grade of 2% that helps to maintain proper speed of the sewage in the pipeline to minimize clogging. Proper design, installation and maintenance are critical for proper operation. View a [[Practitioner's Tool / Technology and Operation / Sewers Comparison|comparison]] of all sewer systems.
More details:
*[[Design_Features|Design Features]]
*[[Installation_Requirements|Installation Requirements]]
*[[:File:Buildingsewerslopetool2.xlsx|Building Sewer Slope Tool (.xlsx)]]
*Types of sewers
**[[Combined_Sewers|Combined Sewers]]<br />
**[[Settled_Sewers|Settled Sewers]]
**Condominial Sewers
**Pressure Sewer Pumps
==== Primary Treatment ====
Septic tanks and anaerobic baffled reactors are low-cost components that remove much of the pollution from sewage. These must be desludged periodically to function properly. For a brief summary table of primary treatment technology, [[Primary_Treatment_Methods_-_Summary|click here]]. For more detailed information, please click on any of the links below.
*[[Septic_Tanks|Septic Tanks]]: A septic system is a small wastewater treatment system designed to treat and dispose of household sanitary waste using a septic tank as the primary component. The septic tank is the first stage in a private wastewater treatment system. Sewage from the building flows to the septic tank where solids are separated from the wastewater flow. The heavier solids sink to the bottom of the tank to form sludge, while the lighter particles, such as hair and grease, rise to the top to form a scum layer.
**[[:File:Septictanksizingtool2.xlsx|Septic Tank Sizing Tool (.xlsx)]]
*[[Vermicomposting_digesters|Vermicomposting digesters]]: This system provides aerobic primary treatment by providing an enclosed environment in which worms transform solid effluent into humus. Liquid is separated from solids by draining through a filtration medium that retains solids. Aerobic digestion is faster and generates less smell than septic tanks.
*[[Anaerobic_Baffled_Reactors_(ABRs)|Anaerobic Baffled Reactors]]: An anaerobic baffled reactor (ABR) is a tank with several compartments that is designed to reduce the organic and suspended matter in the wastewater by about 70%. Raw wastewater enters the ABR tank through the inlet structure, which directs the flow to the bottom of the first compartment. Due to the nature of wastewater under anaerobic conditions, a granulated sludge blanket is formed. As the wastewater flows up through the sludge granules, the solids are trapped in the sludge blanket where anaerobic bacteria consume the organics as food.
**[[:File:RTIsABRSizingTool2.xlsx|ABR Sizing Tool (.xlsx)]]
*[[Sewage_Lagoons|Sewage Lagoons]]: Sewage lagoons are lined ponds or basins that treat wastewater through the physical action of settling and the biological action of microbial digestion. Also known as waste stabilization ponds, sewage lagoons are popular because they are relatively inexpensive and easy to design, install and maintain and can produce a good quality effluent. They do, however, require large land areas. See also:<br />
**[[Types_of_Sewage_Lagoons|Types of Sewage Lagoons]]
**[[Operation_and_Safety_of_Sewage_Lagoons|Operation and Safety]]
**[http://www.susana.org/en/resources/library/details/2470 Sewage Lagoon Tool (.xlsm, File 05)]
*[[Biogas_Systems|Biogas Systems]]: A biogas reactor or anaerobic digester is an anaerobic treatment technology that produces (a) a digested slurry (digestate) that can be used as a fertilizer and (b) biogas that can be used for energy. Biogas is a mix of methane, carbon dioxide and other trace gases which can be converted to heat, electricity or light.
**[[Chinese_Dome_Digester|Chinese Dome Digester]]
*Interceptor Tanks: A settler is a primary treatment technology for wastewater; it is designed to remove suspended solids by sedimentation. It may also be referred to as a sedimentation or settling basin/tank, or clarifier. The low flow velocity in a settler allows settleable particles to sink to the bottom, while constituents lighter than water float to the surface.
==== Secondary Treatment ====
Septic tanks alone are not sufficient to treat wastewater to the point where it can be safely discharged, so secondary systems are required. For a summary table of the secondary treatment technologies, [[Secondary_Treatment_Methods_-_Summary|click here]]. More detailed information is provided under each button below.
*[[Constructed_Wetlands|Constructed Wetlands]]: Constructed wetlands are gaining in popularity as the wastewater system of choice in the Philippines for many point sources of sewage pollution, including those from public markets, hospitals and slaughterhouses. Constructed wetlands come in many shapes, sizes and flow patterns.
**[http://www.susana.org/en/resources/library/details/2470 Constructed Wetlands Tool (.xlsm, File 06)]
*[[Cocopeat_Filters|Cocopeat Filters]]: Cocopeat is the dust from ground coconut shells once the fibers (coir) have been removed. It is generally considered to be a waste by-product from the coconut processing industry; therefore, in coconut producing areas, cocopeat is readily available at a low cost.
**[[Case_Studies:_Cocopeat_Implementations_in_South-East_Asia|Case Studies on Cocopeat Implementations]]
**[[Cocopeat_-_Selecting_Proper_Grades_for_Use_in_Biotreatment_Systems|Selecting Proper Grades for Use in Biotreatment Systems]]: Selecting the proper grade for use in bioreactors as components of wastewater treatment systems is important. Review this link for information on the different grades of cocopeat and steps for preparing cocopeat from dried coconut husks.
**[[:File:Septictanksizingtoolwithcocopeatmodule.xlsx|Cocopeat Sizing Tool (.xlsx)]]
*Aerobic Systems
**Activated Sludge: Activated sludge is a flow-through process during which wastewater passes through a series of tanks or basins where different processes treat the wastewater. After large solids and grit are removed through bar screens and grit traps, the wastewater undergoes primary settling to remove much of the settleable solids. Settled effluent then undergoes biological treatment in the next tank where oxygen and activated sludge containing billions of microbes act upon the organic material in the wastewater.
**[[Extended_Aeration|Extended Aeration]]: Extended aeration is a modification of the activated sludge process and was developed to provide a more stable treatment process for smaller and more variable flows for sources from schools, tourist facilities, shopping malls and similar facilities.
**[[Sequencing_Batch_Reactors|Sequencing Batch Reactors]]: A sequencing batch reactor (SBR) is an aerobic treatment process that is highly efficient in removing organic matter, suspended solids and even nutrients in wastewater. Unlike the traditional activated sludge method that uses multiple tanks, the SBR treats each batch individually in a single tank.
**[[Oxidation_Ditches|Oxidation Ditches]]: An oxidation ditch is a combination of extended aeration and activated sludge processes. An oxidation ditch is constructed as a large holding tank in a continuous oval-shaped ditch.
**[[Fixed_Activated_Sludge_Treatment|Fixed Activated Sludge Treatment]]: The Fixed Activated Sludge Treatment (FAST®) process employs a unique hybrid combination of attached and suspended growth in an aerobic, packed-bed bioreactor.
*[[Rotating_Biological_Contactors|Rotating Biological Contactors]]: Rotating biological contactor (RBC), or biodisc, technology is a fixed-film aerobic treatment process that can be very effective in treating a variety of wastewaters. It is a secondary treatment process, meaning that grit removal and primary settling are required before the RBC process.
==== Disinfection ====
Wastewater effluent exiting secondary treatment units may still have large quantities of pathogenic organisms, including bacteria, viruses, helminthes and protozoa. Disinfect effluent to ensure compliance with discharge requirements. [[Disinfection_-_Summary|Click here]] for a summary table of the disinfection methods available. For more detailed information, please click on any of the links below.
*[[UV_Light_(Natural_Disinfection)|Natural Disinfection]]: Ultraviolet (UV) light is composed of high-energy rays that are found in the natural spectrum of sunlight and can also be emitted by certain specially designed lamps and bulbs. The energy in UV light is powerful enough to kill bacteria in water or filtered effluent.
*[[Chlorination_(Chemical_Disinfection)|Chemical Disinfection]]: Chlorination is the most common form of disinfection as it is inexpensive to install and simple to manage. Chlorine is available in solid, liquid and gas forms. Large municipal treatment plants may choose gaseous chlorine due to the cost savings, but there are many special health and safety requirements.
*[[Ozonation_(Physical_Disinfection)|Physical Disinfection]]: Ozonation
==== Reuse and Recycling ====
Biosolids (excess solids from treated sewage sludge) can make an important contribution to sustainable environmental management by returning organic material, trace elements, moisture and nutrients to soils. The Guidelines for Environmental Management: Biosolids Land Application (linked below) enables this beneficial use of biosolids by providing a management framework that ensures any chemical and microbiological risks are appropriately managed. The drafting of the guideline has been supported by a best practice review of International and Australian biosolids management approaches and broad consultation on proposed guidance in November 2002 and 2000. For more information: [[:File:LandApplicatoinofBiosolids.pdf|Biosolids - Land Application (.pdf)]]
==== Septage Management ====
Below is a step-wise explanation of the single steps in septage management. To help determine septage program costs, an interactive toolkit has been uploaded here. The toolkit is preloaded with actual information from the Dumaguete City Septage Management program. The toolkit is open source and free to download. It is in its Beta format, so still considered a work in progress and comments are being accepted.
*[[Septage_Collection|Septage Collection]]: Septage collection refers to the removal of solids from septic tanks (usually by pumping), as opposed to transportation and treatment. As you will see from the link below, however, collection involves more than just pumping the tank. It also includes pre- and post-pumping inspections, coordinating with local officials, reporting, and customer interface.
*[[Septage_Transportation|Septage Transportation]]: Septage transportation includes all activities from the time a septic tank is pumped to the time the septage load arrives at the treatment facility. The driver and service providers are responsible for safe operation of the vehicle and equipment. Traffic rules shall be followed at all times. All accidents and citations shall be reviewed and investigated by management to ensure adequately trained and competent drivers are employed for septage and sludge transportation.
*[[Septage_Treatment_and_Reuse|Septage Treatment and Reuse]]: Proper wastewater treatment is required to reduce pathogens and separate water from solids so that both may be safely disposed of or reused. All domestic sludge (waste from wastewater treatment plants) and septage (waste from septic tanks) requires processing and treatment before disposal. The treatment processes for domestic sludge and septage are presented at the link below to provide an overview of available technologies. Some of these technologies are cost effective and well suited for small communities or private treatment plant operators.
*[[San_Fernando_City_-_Lime_Stabilization_of_Septage|Lime Stabilization of Septage]]: Lime stabilization, or applying hydrated lime (calcium hydroxide) to septage as a treatment method is well documented. The United States Environmental Protection Agency (EPA) has endorsed this methodology as effective, and it has been used in that country to treat septage for many years. The full recommendations on use of lime stabilization from the US EPA can be viewed [http://www3.epa.gov/npdes/pubs/septage.pdf here]. The link describes a demonstration project to determine the effectiveness of lime stabilization as a method of treating domestic septage in the Philippines.
*[[:File:SeptageInteractiveToolkitbeta.xls|Septage tool (.xls)]] (click [[:File:HowtousetheSeptageManagementToolkit.pdf|here (.pdf)]] for a guide on how to use the Septage Management Tool)
==== Best On-Site Practices ====
The following links guide to ''Best DEWATS Practices'' files which give practical guidance for Decentralized Wastewater Treatment Systems (DEWATS).
*Chlorinators: [[FILE:Chlorinators.pdf|Chlorinators]]
*Electrical Requirements: [[FILE:Electrical.pdf|Electrical]]
*Excavation for Tanks and Basins: [[FILE:Excavation.pdf|Excavation]]
*Greywater Systems: [[FILE:Greywater.pdf|Greywater]]
*Health and Safety: [[FILE:HealthandSafety.pdf|Health and Safety]]
*Plumbing and Pipes: [[FILE:Plumbingandpipes.pdf|Plumbing and pipes]]
*Recordkeeping: [[FILE:Recordkeeping_seyi08102011.pdf|Recordkeeping]]
*Septic Leak Testing: [[FILE:Septictankleaktesting.pdf|Septic tank leak testing]]
*UV Light: [[FILE:UVLight.pdf|UV Light]]
=== Operation ===
The SuSanA factsheet on Operation and maintenance of sustainable sanitation systems gives an introduction into the topics of funding, development, responsibilities and reasons for failure of operation and maintenance. It also gives six short case studies as examples for successful implementation.
*[http://www.susana.org/en/resources/akvo-sanitation-portal/factsheet-wg-10-operation-and-maintenance#akvopedia:Operation%20and%20maintenance%20-%20Sustainable%20Sanitation Summary of the factsheet].
*[http://www.susana.org/en/resources/library/details/939 Download the complete factsheet].