Omni processor

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Omni Processor pilot plant by Sedron Technologies treating fecal sludge in Dakar, Senegal Front view of the Janicki Omni Processor Pilot Plant in Dakar, Senegal.jpg
Omni Processor pilot plant by Sedron Technologies treating fecal sludge in Dakar, Senegal

Omni processor is a term coined in 2012 by staff of the Water, Sanitation, Hygiene Program of the Bill & Melinda Gates Foundation [1] to describe a range of physical, biological or chemical treatments to remove pathogens from human-generated fecal sludge, while simultaneously creating commercially valuable byproducts (e.g., energy). Air from feces are separated from common air, then these collected air from feces are compressed like (LPG) and used as fuel. An omni processor mitigates unsafe methods in developing countries of capturing and treating human waste, which annually result in the spread of disease and the deaths of more than 1.5 million children.

Contents

Rather than a trademark, or a reference to a specific technology, the term omni processor is a general term for a range of self-sustaining, independently developed systems designed with the same end in mind, to transform and extract value from human waste using various technological approaches, including combustion, supercritical water oxidation and pyrolysis.

In the term, omni refers to the ability of an omni processor to treat a wide variety of waste streams or fuel sources.

Background

The omni processor was developed to provide a low-cost method of treating human waste which would otherwise be disposed of by such unsanitary means as river dumping Dumping of faecal sludge into Kenyan river (cropped).jpg
The omni processor was developed to provide a low-cost method of treating human waste which would otherwise be disposed of by such unsanitary means as river dumping

Since 2012, the Bill and Melinda Gates Foundation has been funding research into omni processors. An omni processor is any of various types of technologies that treat fecal sludge, also known as septage to remove pathogens and simultaneously extract byproducts with commercial value, for example energy or soil nutrients, [1] the latter which could be reused in agriculture. The omni processor program, which targets community-scale solutions that may optionally combine sludge and solid waste processing, complements the foundation's pit latrine emptying ("omni-ingestor") and "Reinvent the Toilet" programs.

Challenges

The omni processor is targeted as a solution for developing countries, although challenges around technical and financial aspects remain. [2] Omni processors and omni ingestors are being designed to provide an alternative to sewerage system-based technologies. They are also intended to address the large number of existing pit latrines which lack a supporting infrastructure of fecal sludge collection and processing when the pits are full. Sludge from pit latrines has to be removed from the pits for treatment and disposal either by pumping (if the fecal sludge is sufficiently liquid) or by manual emptying with shovels or other devices (in India, this practice is called manual scavenging). Despite new low-cost pumps being developed, only a small fraction of sludge is safely extracted and treated currently in many African and Asian cities. [2] [3]

Examples

Biomass Controls PBC

Biomass Controls PBC is a U.S. Delaware public benefit corporation that delivered the first biogenic refinery (OP) prototype to New Delhi, India, in 2014 in partnership with the Climate Foundation. This system was designed to process non-sewered sanitation for populations between 100 and 10,000 people. The prototype was funded by the Bill and Melinda Gates Foundation. In 2016 a biogenic refinery was delivered to Kivalina, Alaska, for the processing of urine-diverting dry toilets (UDDTs) as part of the Alaska Water & Sewer Challenge. [4] In 2017, three systems were shipped to India and installed in the cities of Wai, Warangal and Narsapur in partnership with Tide Technocrats. In 2018 a prototype was shown that can generate electricity (mCHP) from the thermal energy from the processing of fecal sludge, at the Bill and Melinda Gates Foundation reinvented toilet event in Beijing, China. [5] In 2019, a system was set up at a dairy farm to process the separated solids from cow manure. This system demonstrated a significant reduction in greenhouse gas emissions while reducing solids volume by over 90% and producing biochar.

Sedron Technologies

Omni processor (sewage sludge treatment system using combustion) at Sedron Technologies' headquarters in the U.S. IJANICKI OMNI PROCESSOR.jpg
Omni processor (sewage sludge treatment system using combustion) at Sedron Technologies' headquarters in the U.S.

The U.S.-based company Sedron Technologies (formerly Janicki Bioenergy) presented in 2014 a prototype using combustion. Their process is a sewage sludge treatment system that produces drinking water and electrical energy as end products from sewage sludge. [6] Manufactured by Sedron Technologies, the proof of concept model was funded by the Bill and Melinda Gates Foundation. The S100 prototype model can produce 10,800 liters of drinking water per day and 100 kW net electricity. A larger model under development, the S200, is designed to handle the waste from 100,000 people, produce 86,000 liters of drinking water per day and 250 kW net output electricity. These systems are designed to provide a "self-sustaining bioenergy" process. [7] [8]

The treatment process first involves boiling (or thermally drying) the sewage sludge, during which water vapor is boiled off and recovered. A dry sludge is left behind which is then combusted as fuel to heat a boiler. This boiler produces steam and the heat necessary for the boiling process. The steam is then used to generate electrical energy. Some of this electrical energy is used for the final water reverse osmosis purification stages to produce safe drinking water, and to power ancillary pumps, fans and motors. The process immediately uses the solid fuel it produces, and therefore the process does not make a solid fuel product as an end product.

A pilot project of Sedron Technologies' omni processor was installed in Dakar, Senegal, in 2015 and can now treat the fecal sludge of 50,000-100,000 people. [9]

Climate Foundation

The U.S.-based NGO Climate Foundation, in collaboration with Stanford University, has built several pilot-scale reactors to treat human waste and turn it into biochar, which can be used as an agricultural soil amendment. [10]

Duke University and 374Water

Pilot omni processor for fecal sludge treatment by supercritical oxidation at Duke University, U.S. Container 6 2015.JPG
Pilot omni processor for fecal sludge treatment by supercritical oxidation at Duke University, U.S.

Scientists at Duke University in the U.S. have developed and are testing a pilot fecal sludge treatment unit that fits in a 20-foot shipping container and treats the fecal matter of roughly 1000 people using a new supercritical water oxidation (SCWO) process. [11] The SCWO technology can covert any type of organic waste (fecal, food waste, paper, plastic, etc.) to energy and clean water. [12]

The waste (sludge) is reacted with air at temperatures and pressures above the critical point of water (374 °C, 221 Bar) to convert all of the organics into clean water and CO2 in seconds. Byproducts include distilled water, clean water which contains suspended inorganic minerals that can be utilized as fertilizers. The unit generates more than 900 liters of water for each ton of processed waste and the water can be processed further to drinking water.

The continuous process utilizes the energy embedded in the waste, thus enabling operating off-the-grid. 374Water is a Duke University spin-off company aiming to commercialize the SCWO technology. [13]

Unilever

Unilever PLC in the United Kingdom is developing a pyrolysis-based fecal sludge treatment unit designed to serve over 2000 people. [14]

The omni processor initiative for processing fecal sludge is being complemented by an effort to develop new technologies for improved pit latrine emptying (called by the Gates Foundation the "omni ingestor" [15] ) and by the Reinvent the Toilet Challenge. The latter is a long-term research and development effort to develop a hygienic, stand-alone toilet. It is focused on "reinventing the flush toilet". The aim is to create a toilet that not only removes pathogens from human excreta, but also recovers resources such as energy, clean water, and nutrients (a concept also known as reuse of excreta). It should operate "off the grid" without connections to water, sewer, or electrical networks. Finally, it should cost less than 5 US-cents per user per day. [16]

Society and culture

Media attention

In a publicity stunt in late 2014, Bill Gates drank the water produced from Sedron Technologies' omni processor system, causing widespread media attention. [7] In early 2015, Gates appeared on Late Night With Jimmy Fallon and challenged Fallon to see if he could taste the difference between water from this particular "omni processor" or bottled water. [17]

The project was covered in a Netflix documentary mini-series Inside Bill's Brain: Decoding Bill Gates .

Related Research Articles

<span class="mw-page-title-main">Bill & Melinda Gates Foundation</span> American private foundation

The Bill & Melinda Gates Foundation (BMGF), a merging of the William H. Gates Foundation and the Gates Learning Foundation, is an American private foundation founded by Bill Gates and Melinda French Gates. Based in Seattle, Washington, it was launched in 2000 and is reported to be the second largest charitable foundation in the world, holding $69 billion in assets as of 2020. On his 43rd birthday, Bill Gates gave the foundation $1 billion. The primary stated goals of the foundation are to enhance healthcare and reduce extreme poverty across the world, and to expand educational opportunities and access to information technology in the U.S. Key individuals of the foundation include Bill Gates, Melinda French Gates, Warren Buffett, chief executive officer Mark Suzman, and Michael Larson.

<span class="mw-page-title-main">Sanitation</span> Public health conditions related to clean water and proper excreta and sewage disposal

Sanitation refers to public health conditions related to clean drinking water and treatment and disposal of human excreta and sewage. Preventing human contact with feces is part of sanitation, as is hand washing with soap. Sanitation systems aim to protect human health by providing a clean environment that will stop the transmission of disease, especially through the fecal–oral route. For example, diarrhea, a main cause of malnutrition and stunted growth in children, can be reduced through adequate sanitation. There are many other diseases which are easily transmitted in communities that have low levels of sanitation, such as ascariasis, cholera, hepatitis, polio, schistosomiasis, and trachoma, to name just a few.

<span class="mw-page-title-main">Composting toilet</span> Type of toilet that treats human excreta by a biological process called composting

A composting toilet is a type of dry toilet that treats human waste by a biological process called composting. This process leads to the decomposition of organic matter and turns human waste into compost-like material. Composting is carried out by microorganisms under controlled aerobic conditions. Most composting toilets use no water for flushing and are therefore called "dry toilets".

Human waste refers to the waste products of the human digestive system, menses, and human metabolism including urine and feces. As part of a sanitation system that is in place, human waste is collected, transported, treated and disposed of or reused by one method or another, depending on the type of toilet being used, ability by the users to pay for services and other factors. Fecal sludge management is used to deal with fecal matter collected in on-site sanitation systems such as pit latrines and septic tanks.

<span class="mw-page-title-main">Pit latrine</span> Toilet that collects human waste in a hole in the ground

A pit latrine, also known as pit toilet, is a type of toilet that collects human waste in a hole in the ground. Urine and feces enter the pit through a drop hole in the floor, which might be connected to a toilet seat or squatting pan for user comfort. Pit latrines can be built to function without water or they can have a water seal. When properly built and maintained, pit latrines can decrease the spread of disease by reducing the amount of human feces in the environment from open defecation. This decreases the transfer of pathogens between feces and food by flies. These pathogens are major causes of infectious diarrhea and intestinal worm infections. Infectious diarrhea resulted in about 700,000 deaths in children under five years old in 2011 and 250 million lost school days. Pit latrines are a low-cost method of separating feces from people.

<span class="mw-page-title-main">Incinerating toilet</span> Type of dry toilet that burns human feces

An incinerating toilet is a type of dry toilet that burns human feces instead of flushing them away with water, as does a flush toilet. The thermal energy used to incinerate the waste can be derived from electricity, fuel, oil, or liquified petroleum gas. They are relatively inefficient because of the fuel used.

<span class="mw-page-title-main">Manual scavenging</span> Term used mainly in India

Manual scavenging is a term used mainly in India for "manually cleaning, carrying, disposing of, or otherwise handling, human excreta in an insanitary latrine or in an open drain or sewer or in a septic tank or a pit". Manual scavengers usually use hand tools such as buckets, brooms and shovels. The workers have to move the excreta, using brooms and tin plates, into baskets, which they carry to disposal locations sometimes several kilometers away. The practice of employing human labour for cleaning of sewers and septic tanks is also prevalent in Bangladesh and Pakistan. These sanitation workers, called "manual scavengers", rarely have any personal protective equipment. The work is regarded as a dehumanizing practice.

<span class="mw-page-title-main">Sustainable sanitation</span> Sanitation system designed to meet certain criteria and to work well over the long-term

Sustainable sanitation is a sanitation system designed to meet certain criteria and to work well over the long-term. Sustainable sanitation systems consider the entire "sanitation value chain", from the experience of the user, excreta and wastewater collection methods, transportation or conveyance of waste, treatment, and reuse or disposal. The Sustainable Sanitation Alliance (SuSanA) includes five features in its definition of "sustainable sanitation": Systems need to be economically and socially acceptable, technically and institutionally appropriate and protect the environment and natural resources.

<span class="mw-page-title-main">Sanitation worker</span> Person who is responsible for the cleaning and maintaining of a sanitation technology

A sanitation worker is a person responsible for cleaning, maintaining, operating, or emptying the equipment or technology at any step of the sanitation chain. This is the definition used in the narrower sense within the WASH sector. More broadly speaking, sanitation workers may also be involved in cleaning streets, parks, public spaces, sewers, stormwater drains, and public toilets. Another definition is: "The moment an individual’s waste is outsourced to another, it becomes sanitation work." Some organizations use the term specifically for municipal solid waste collectors, whereas others exclude the workers involved in management of solid waste sector from its definition.

<span class="mw-page-title-main">Urine diversion</span> Separate collection of human urine and feces at the point of their production

Urine diversion, also called urine separation or source separation, refers to the separate collection of human urine and feces at the point of their production, i.e. at the toilet or urinal. Separation of urine from feces allows human waste to be treated separately and used as a potential resource. Applications are typically found where connection to a sewer-based sanitation system is not available or areas where water supplies are limited.

<span class="mw-page-title-main">Dry toilet</span> Toilet that operates without flush water

A dry toilet is a toilet which, unlike a flush toilet, does not use flush water. Dry toilets do not use water to move excreta along or block odors. They do not produce sewage, and are not connected to a sewer system or septic tank. Instead, excreta falls through a drop hole.

<span class="mw-page-title-main">Urine-diverting dry toilet</span> Dry toilet with separate collection of feces and urine without any flush water

A urine-diverting dry toilet (UDDT) is a type of dry toilet with urine diversion that can be used to provide safe, affordable sanitation in a variety of contexts worldwide. The separate collection of feces and urine without any flush water has many advantages, such as odor-free operation and pathogen reduction by drying. While dried feces and urine harvested from UDDTs can be and routinely are used in agriculture, many UDDT installations do not apply any sort of recovery scheme. The UDDT is an example of a technology that can be used to achieve a sustainable sanitation system. This dry excreta management system is an alternative to pit latrines and flush toilets, especially where water is scarce, a connection to a sewer system and centralized wastewater treatment plant is not feasible or desired, fertilizer and soil conditioner are needed for agriculture, or groundwater pollution should be minimized.

<span class="mw-page-title-main">Reuse of human excreta</span> Safe, beneficial use of human excreta mainly in agriculture (after treatment)

Reuse of human excreta is the safe, beneficial use of treated human excreta after applying suitable treatment steps and risk management approaches that are customized for the intended reuse application. Beneficial uses of the treated excreta may focus on using the plant-available nutrients that are contained in the treated excreta. They may also make use of the organic matter and energy contained in the excreta. To a lesser extent, reuse of the excreta's water content might also take place, although this is better known as water reclamation from municipal wastewater. The intended reuse applications for the nutrient content may include: soil conditioner or fertilizer in agriculture or horticultural activities. Other reuse applications, which focus more on the organic matter content of the excreta, include use as a fuel source or as an energy source in the form of biogas.

<span class="mw-page-title-main">Fecal sludge management</span> Collection, transport, and treatment of fecal sludge from onsite sanitation systems

Fecal sludge management (FSM) is the storage, collection, transport, treatment and safe end use or disposal of fecal sludge. Together, the collection, transport, treatment and end use of fecal sludge constitute the "value chain" or "service chain" of fecal sludge management. Fecal sludge is defined very broadly as what accumulates in onsite sanitation systems and specifically is not transported through a sewer. It is composed of human excreta, but also anything else that may go into an onsite containment technology, such as flushwater, cleansing materials, menstrual hygiene products, grey water, and solid waste. Fecal sludge that is removed from septic tanks is called septage.

<span class="mw-page-title-main">Decentralized wastewater system</span> Processes to convey, treat and dispose or reuse wastewater from small communities and alike

Decentralized wastewater systems convey, treat and dispose or reuse wastewater from small and low-density communities, buildings and dwellings in remote areas, individual public or private properties. Wastewater flow is generated when appropriate water supply is available within the buildings or close to them.

<span class="mw-page-title-main">Container-based sanitation</span> Sanitation system which uses removable containers

Container-based sanitation refers to a sanitation system where toilets collect human excreta in sealable, removable containers that are transported to treatment facilities. This type of sanitation involves a commercial service which provides certain types of portable toilets, and delivers empty containers when picking up full ones. The service transports and safely disposes of or reuses collected excreta. The cost of collection of excreta is usually borne by the users. With suitable development, support and functioning partnerships, CBS can be used to provide low-income urban populations with safe collection, transport and treatment of excrement at a lower cost than installing and maintaining sewers. In most cases, CBS is based on the use of urine-diverting dry toilets.

<span class="mw-page-title-main">Emergency sanitation</span> Management and technical processes required to provide sanitation in emergency situations

Emergency sanitation is the management and technical processes required to provide sanitation in emergency situations. Emergency sanitation is required during humanitarian relief operations for refugees, people affected by natural disasters and internally displaced persons. There are three phases of emergency response: Immediate, short term and long term. In the immediate phase, the focus is on managing open defecation, and toilet technologies might include very basic latrines, pit latrines, bucket toilets, container-based toilets, chemical toilets. The short term phase might also involve technologies such as urine-diverting dry toilets, septic tanks, decentralized wastewater systems. Providing handwashing facilities and management of fecal sludge are also part of emergency sanitation.

Vermifilter toilet, also known as a primary vermifilter,vermidigester toilet, tiger toilet or tiger worm toilet, is an on-site sanitation system in which human excreta are delivered from a toilet onto a medium containing a worm-based ecosystem. Faecal solids are trapped on the surface of the vermifilter where digestion takes place. Liquids typically flow through drainage media, before the effluent is infiltrated into the soil.

<span class="mw-page-title-main">Shit flow diagram</span> Diagram of excreta flow in a city

A shit flow diagram is a high level technical drawing used to display how excreta moves through a location, and functions as a tool to identify where improvements are needed. The diagram has a particular focus on treatment of the waste, and its final disposal or use. SFDs are most often used in developing countries.

References

  1. 1 2 Kuchenrither, R. D., Stone, L., Haug, R. T. (2012), Omni-Processor Landscaping Project. Consultancy report by WERF (Water Environment Research Foundation), commissioned by Bill & Melinda Gates Foundation, Seattle, USA
  2. 1 2 "Gates drinks water made from faeces – and so do you!". WaterAid UK. Rémi Kaupp. 9 January 2015. Retrieved 13 January 2015.
  3. "The Missing Link in Sanitation Service Delivery, A Review of Fecal Sludge Management in 12 Cities" (PDF). WSP. April 2014.
  4. "Alaska Water and Sewer Challenge (AWSC)". dec.alaska.gov. Retrieved 2020-12-30.
  5. "Reinvent the Toilet". www.gatesfoundation.org. 2001-01-01. Retrieved 2020-12-30.
  6. "Omni Processor - S100". Sedron Technologies. Archived from the original on 9 January 2015. Retrieved 8 May 2015.
  7. 1 2 "BBC news article "Bill Gates drinks water distilled from human faeces"" . Retrieved 11 January 2015.
  8. "From poop to portable, This Ingenious Machine Turns Feces Into Drinking Water". gatesnotes, The Blog of Bill Gates. 5 January 2015. Retrieved 13 January 2015.
  9. "The firms turning poo into profit". BBC News Business Section. 16 November 2016. Retrieved 17 November 2016.
  10. "Conversion of human waste into biochar using pyrolysis at a community-scale facility in Kenya - Various documents on results from research grant". www.susana.org. Sustainable Sanitation Alliance (library). 2014. Retrieved 2015-06-26.
  11. Deshusses, M. (2013). Neighborhood-scale treatment of fecal sludge by supercritical oxidation - Various documents on results from research grant. Duke University, Durham, North Carolina, USA
  12. "Current Progress – Community Treatment | Sanitation Solutions". sanitation.pratt.duke.edu. Retrieved 2020-02-16.
  13. "Duke Startup Converts Fecal Sludge To Clean Reusable Water". Duke Civil and Environmental Engineering. 2018-10-26. Retrieved 2020-02-16.
  14. "Oya project - community waste treatment". Unilever, UK. Retrieved 8 May 2015.
  15. Frederick, R., Gurski, T. (2012). Synapse Dewatering Investigation Report - Omni-Ingestor Phase 2, Milestone 1. Consultancy report by Synapse (USA) commissioned by Bill & Melinda Gates Foundation, Seattle, USA
  16. Radke, N., Spuhler, D. (2013) Brief overview of conditions for water, sanitation and hygiene grants by the Bill & Melinda Gates Foundation
  17. "Bill Gates and Jimmy Drink Poop Water". Youtube Channel of The Tonight Show Starring Jimmy Fallon. 22 January 2015.
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