Schematics of system 7 components. Source: TILLEY et al (2014)
This system is characterized by the use of a household-level technology to remove and digest settleable solids from the Blackwater, and Simplified and Condominal Sewers or Solids-free Sewers to transport the Effluent to a Centralized or Semi-Centralized Treatment facility. Inputs to the system can include Faeces, Urine, Flushwater, Anal Cleansing Water, Dry Cleansing Materials and Greywater.
This system is comparable to System 6: Blackwater Treatment System with Infiltration except that the management and processing of the Effluent generated during Collection and Storage/Treatment of the Blackwater is different: the Effluent from Septic Tanks, Anaerobic Baffled Reactor (ABR) or Anaerobic Filter is transported to a (Semi-) Centralized Treatment facility via Simplified and Condominal Sewers or a Solids-free Sewer network. The Collection and Storage/Treatment units serve as “interceptor tanks” and allow for the use of simplified small-diameter sewers, as the Effluent is free from settleable solids. Similar to System 6: Blackwater Treatment System with Infiltration, the Effluent can also alternatively be discharged into the Stormwater drainage network for Water Disposal/Groundwater Recharge (Surface Disposal (Liquids)), although this is not the recommended approach. This should only be considered if the quality of the Effluent is high and transportation to a treatment plant is not feasible.
Effluent transported to a treatment facility is treated using a combination of the technologies Biogas Settler, Imhoff Tank, Anaerobic Baffled Reactor (ABR), Anaerobic Filter, Waste Stabilisation Ponds, Aerated Pond, Free-Water Surface CW, Horizontal Subsurface Flow CW, Vertical Flow CW, Trickling Filter, UASB Reactor, Activated Sludge. As in System 6: Blackwater Treatment System with Infiltration, the Sludge that is generated from the Collection and Storage/Treatment technology must be removed and transported for further treatment in a dedicated Sludge treatment facility (Thickening Ponds, Unplanted Drying Beds, Planted Drying Beds, (Co-) composting (Large-scale), Anaerobic Digestion (Small-scale)).
A technology selection tree for Sludge treatment plants is provided in Strande et al., 2014 (see Sector Development Tools, p. 8). (Semi-) Centralized Treatment technologies produce both Effluent and Sludge, which may require further treatment prior to Use and/or Disposal.
Options for the Use and/or Disposal of the treated Effluent include Fertigation, Aquaculture (Fish), Aquaculture (Plants) or discharge to a water body (Surface Disposal (Liquids)). After adequate treatment, Sludge can either be used in agriculture (Land Application of Sludge) or brought to a Storage/Disposal site (Surface Disposal (Solids)).
This system is especially appropriate for urban settlements where there is little space for onsite storage technologies and where the soil is not suitable for the infiltration of Effluent. Since the sewer network is shallow and (ideally) watertight, it is also applicable for areas with high groundwater tables. This system can be used as a way of upgrading existing, under-performing Collection and Storage/Treatment technologies (e.g. Septic Tanks) by providing improved, (Semi-) Centralized Treatment.
The success of this system depends on high user commitment concerning the operation and maintenance of the sewer network. A person or organization can be made responsible on behalf of the users. There must be an accessible, affordable and systematic method for desludging the interceptors since one user’s improperly maintained tank could adversely impact the entire sewer network. Also important is a well-functioning and properly maintained treatment facility. In some cases this will be managed at the municipal or regional level. In the case of a more local, small-scale solution (e.g., constructed wetlands), operation and maintenance responsibilities could also be organized on the community-level.
This water-based system is suitable for Anal Cleansing Water inputs, and, since the solids are settled and digested onsite, easily degradable Dry Cleansing Materials can be used. However, rigid or non-degradable materials (e.g., leaves, rags) could clog the system and cause problems with emptying and, therefore, should not be used. In cases when Dry Cleansing Materials are separately collected from the flush toilets, they should be disposed of in an appropriate way (e.g. (Surface Disposal (Solids)).
With the offsite transport of the Effluent to a (Semi-) Centralized Treatment facility, the capital investment for this system is considerable. Installation of an onsite Collection and Storage/Treatment technology may be costly, but the infrastructure required for Simplified and Condominal Sewers or the Solids-free Sewer network will be considerably less expensive than the design and installation of Conventional Sewers (Combined Sewers). The offsite treatment plant itself is also an important cost factor, particularly, if there is no pre-existing facility to which the sewer can be connected.
Guidelines for the safe use of of Sludge and Effluent have been published by the World Health Organization (WHO) and are referenced on the relevant technology information sheets.
This compendium gives a systematic overview on different sanitation systems and technologies and describes a wide range of available low-cost sanitation technologies.TILLEY, E., ULRICH L., LÜTHI, C., REYMOND P. and ZURBRÜGG C. (2014): Compendium of Sanitation Systems and Technologies. 2nd Revised Edition. Duebendorf, Switzerland: Swiss Federal Institute of Aquatic Science and Technology (Eawag) URL [Accessed: 03.05.2023] PDF
This is the first book to compile the current state of knowledge on faecal sludge management. It addresses the organization of the entire faecal sludge management service chain, from the collection and transport of sludge, to the current state of knowledge of treatment options, and the final end use or disposal of treated sludge. It presents an integrated approach that brings together technology, management, and planning, based on Sandec’s 20 years of experience in the field. It also discusses important factors to consider when evaluating and upscaling new treatment technology options. The book is designed for undergraduate and graduate students, engineers, and practitioners in the field who have some basic knowledge of environmental and/or wastewater engineering.STRANDE, L. ; RONTELTAP, M. ; BRDJANOVIC, D. (2014): Faecal Sludge Management. Systems Approach for Implementation and Operation. London: IWA Publishing URL [Accessed: 16.07.2014]
This is the Arabic version of the Compendium of Sanitation Systems and Technologies. The Compendium gives a systematic overview on different sanitation systems and technologies and describes a wide range of available low-cost sanitation technologies.TILLEY, E. ULRICH, L. LUETHI, C. REYMOND, P. SCHERTENLEIB, R. ZURBRUEGG, C. (2014): Compendium of Sanitation Systems and Technologies (Arabic). 2nd Revised Edition. Duebendorf, Switzerland: Swiss Federal Institute of Aquatic Science and Technology (Eawag) PDF