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Resource recovery from faecal sludge can take many forms, including as a fuel, soil amendment, building material, protein, animal fodder, and water for irrigation. Resource recovery as a solid fuel has been found to have high market potential in Sub-Saharan Africa. Laboratory- and pilot-scale research on faecal sludge solid fuel production exists, but it is unclear which technology option is most suitable in which conditions. This review offers an overview and critical analysis of the current state of technologies that can produce a dried or carbonized solid fuel, including drying, pelletizing, hydrothermal carbonization, and slow-pyrolysis. Carbonization alters fuel properties, and in faecal sludge, it concentrates the ash content and decreases the calorific value. Overall, a non-carbonized faecal sludge fuel is recommended, unless a carbonized product is specifically required by the combustion technology or end user. Carbonized and non-carbonized fuels have distinct characteristics, and deciding whether to char or not to char is a key judgement in determining the optimal solid fuel technology option. Based on the existing evidence, this review provides a decision-making structure for selecting the optimal technology to produce a faecal sludge solid fuel and identifies the top research needs prior to full-scale implementation.

In many low-income cities, a high proportion of fecal sludge, the excreta and blackwater collected from onsite sanitation systems such as pit latrines, is not safely managed. This constitutes a major danger to environmental and human health. The water, sanitation, and hygiene sector has recognized that valorization of treated fecal sludge could offset the upfront cost of treatment by using it as a fuel source. The few quantitative studies on fecal sludge fuel published to date have focused on heating value, moisture, ash fraction, and heavy metals. However, other factors impacting fuel utility, specifically ash speciation, have not been adequately quantified for fecal sludge. This study contributes to closing that gap and shows the value of more detailed quantification. It first characterizes fecal sludge samples from Colorado and Uganda, confirms that the fuel is better if cofired with other biomass, and outlines a framework for determining safe cofire ratios. Second, the study evaluates two methods for improving fecal sludge as a fuel: carbonization and ash leaching. Carbonization of fecal sludge did not improve fuel quality, but leaching showed promise in ash reduction.

The safe management of fecal sludge (FS) relies on different treatments, processes, and disposal options in different contexts. Waste transfer stations can improve FS management particularly in resource-constrained areas, including low-income urban informal settlements, by providing a safe discharge and treatment location. Low-footprint options for FS treatment are sensitive to the characteristics of incoming FS, which are typically highly variable, difficult to predict, and differ significantly from the characteristics of traditional wastewater. The success of low-footprint technologies relies on the monitoring of incoming FS characteristics, such as total solids (TS), total suspended solids (TSS), chemical oxygen demand (COD), ammonia, electrical conductivity (EC), and pH. Monitoring the characteristics of incoming FS typically relies on the use of a laboratory, which can be expensive and time-consuming, particularly in resource-constrained areas. Useful correlations between easy to measure parameters and difficult to measure parameters may provide useful information related to the monitoring of FS, while reducing the need for laboratory analysis. In this paper, we describe a sampling campaign at a waste transfer station in Nairobi, Kenya managed by Sanergy Inc., to characterize and observe settling behavior of FS collected from manually emptied pit latrines. The investigation found that easy to measure parameters (e.g., TS, turbidity) could be used to approximate difficult to measure parameters (COD, TSS). Additionally, rapid measurements (turbidity) could be used to approximate time-intensive parameters (TS, COD, TSS) to aid in the design, operation and monitoring of FS treatment facilities in resource and space-constrained areas.

Almost half of the world’s population is living without access to sanitation services that are safe, reliable, and minimize public health risk of human waste exposure. Modern flush-based sanitation networks are unsustainable: substantial resources, namely water and fuel, are required to bring human waste to centralized treatment facilities. Moving toward sustainable sanitation requires the implementation of innovative renewable energy technologies for stabilization and disinfection of waste, at the local or household scale, where minimal inputs of water, electricity or chemicals are required. A novel solar thermal disinfection toilet prototype has been constructed and is assessed for overall solar to receiver efficiency in treating waste without electrical, chemical, or water inputs from municipal supply. The measured solar to receiver efficiency is 28%, incorporating the capturing and concentration of sunlight and transmission of the energy to the receiver. For a typical sunny day, the current system can achieve thermal treatment of 0.8 kg human waste in roughly 100 min. The novel toilet is available for any location in the world with sufficient sunlight and irradiance data, and is scalable by adding solar collectors for sizes from single dwellings to communities.

Management of early-stage breast cancer in young women with mutations in BRCA1 or BRCA2 remains controversial. This study assessed the long-term risks of ipsilateral and contralateral breast cancer in a cohort of young women who underwent breast-conserving surgery followed by radiotherapy. Between 1975 and 1998, 290 women with breast cancer diagnosed at age 42 years or younger underwent lumpectomy followed by radiotherapy at our hospital. We recruited 127 of these women for complete sequencing of BRCA1 and BRCA2. Demographic, clinical, pathological, and outcome data were recorded. The primary endpoints were rates of ipsilateral and contralateral breast cancer, in relation to germline BRCA1/2 status. 105 women were classified as having sporadic disease (94 with wild-type or known polymorphisms and 11 with variants of unclear significance) and 22 as having genetic predisposition (deleterious mutations in BRCA1 [15] or BRCA2 [seven]). At 12 years of follow-up, the genetic group had significantly higher rates of ipsilateral (49% vs 21%, p=0·007) and contralateral events (42% vs 9%, p=0·001) than the sporadic group. The majority of events were classified as second primary tumours. No patient in the genetic group had undergone oophorectomy or was taking prophylactic agents such as tamoxifen. Patients with germline mutations in BRCA1 or BRCA2 have a high risk of developing late ipsilateral and contralateral second primary tumours. With breast-conserving therapy, chemoprophylaxis or other interventions to reduce the rate of second cancers may be valuable. Alternatively, bilateral mastectomy may be considered, to minimise the risk of second tumours in the breasts.

Stabilization and dewatering are essential treatment mechanisms for the management of fecal sludge (FS) that accumulates in onsite containment, but reliable predictors of treatment performance are lacking. FS in Lusaka, Zambia is typically 80–98% water, which when delivered to treatment first requires dewatering, followed by stabilization of varying levels of organic matter. In addition, varying levels of stabilization are themselves observed to influence dewatering performance. Therefore, this study evaluated rapid and low-cost metrics of stabilization and their relation to dewaterability. Fourteen metrics of stabilization were evaluated based on 11 criteria in a decision matrix. Four metrics were selected to then evaluate method performance and suitability with FS samples (n = 27). The relation between stabilization and dewatering performance of collected samples were analyzed, and also following anaerobic stabilization in the laboratory. The study found that metrics based on physical–chemical characteristics such as volatile/total solids (VS/TS) and biological oxygen demand/chemical oxygen demand (BOD/COD) were not reliable for measuring FS stabilization and its relation to dewaterability. Metrics that rely on microbial activity such as SOUR (specific oxygen uptake rate) are more promising based on the consistent results obtained throughout this study.

Humans have long marveled at the stunning beauty of whales as they move so gracefully through the water and then suddenly breach with a showy splash. But what happens when those awe-inspiring creatures die and fall to the ocean floor? In Life After Whale: The Amazing Ecosystem of a Whale Fall (Holiday House, 2024), author Lynn Brunelle and illustrator Jason Chin provide some answers in this year’s Sibert Medal-winning book.

This profile of Joyce Sidman, recipient of the 2013 NCTE Excellence in Poetry for Children Award, provides insight into the inspiration for her work and highlights her creative process. Tips for budding poets are included.

While the global pandemic has held the attention of many individuals worldwide, a different kind of pandemic seems to have taken hold in the United States. According to the American Library Association’s (ALA) Office for Intellectual Freedom (OIF), books were challenged three times more frequently during the last four months of 2021 than during a comparable period in the previous year. The office recorded 330 various attempts to censor reading materials during that time. Increasingly, educators and librarians especially are facing challenges, threats, and harassment as they navigate this changing landscape. In fact, in the opening months of 2023 several state legislatures are considering legislation targeting books, reading, and intellectual freedom.