Global

Elsevier,

Disasters and Public Health, Second Edition, 2016.

This book chapter advances SDGs 3 and 13 by discussing the public health preparedness aspects of preparing for and recovering from severe winter storms.
Elsevier,

Disasters and Public Health, Second Edition, 2016.

This book chapter advances SDGs 3 and 13 by explaining the factors contributing to wildfire morbidity and mortality.
UNGC Executive Director Lise Kingo discusses the ten principles and how companies can advance the 17 global goals.
Elsevier,

Alzheimer's Disease, Life Course Perspectives on Risk Reduction, 2016, Pages 57-73

This chapter addresses goal 3 by examining the prevalence and epidemiology of Alzheimer's Disease.
Elsevier,

Systems Neuroscience in Depression, 2016, Pages 29-77

This chapter addresses SDG 3 by discussing the mechanisms behind early life stress being a risk factor for depression.
Elsevier, Building and Environment, Volume 97, February 15, 2016
Heat map of simulated annual heating demand for South Boston using UMI (a) and daily gas and electricity demand profiles for the highlighted building in South Boston (b).
Over the past decades, detailed individual building energy models (BEM) on the one side and regional and country-level building stock models on the other side have become established modes of analysis for building designers and energy policy makers, respectively. More recently, these two toolsets have begun to merge into hybrid methods that are meant to analyze the energy performance of neighborhoods, i.e. several dozens to thousands of buildings. This paper reviews emerging simulation methods and implementation workflows for such bottom-up urban building energy models (UBEM).
Multidisciplinary, innovative and high values development of high performance, cost-effective and environmentally acceptable separation systems is highly desired to tackle the sustainability challenges that facing current desalination technology. Owing to their versatility and immense potentials to evolve scientific and technical innovations, nanotechnology is probably one of the most prominent strategies that has gained growing scientific and public recognition to provide solutions that can extend the limits of sustainability in membrane desalination technology.
Membrane (bio)fouling is a major obstacle to many separation and purification processes. Due to the inherent physicochemical properties of some thin film composite membrane surfaces such as polyamide, these are prone to (bio)fouling. Hence, this review highlights recent advances in the design and development of highly resistant thin film composite membrane through surface modification by either coating or grafting with antifouling polymers and/or antimicrobial polymers/biocidal inorganic nanoparticles.
Recent research on CO2 capture is focusing on the optimization of CO2 absorption using amines (mainly monoethanolamine-MEA) in order to minimize the energy consumption of this very energy-intensive process and improve the absorption efficiency. Process optimization is always required and this research is worth and necessary. However, the main concern arises when thinking of the overall process: solvent production, solvent use and regeneration, and environmental effects related to its use/emissions.
Amnesty International’s recent report on child labour in supply chains reported children as young as seven working in cobalt mines in the Democratic Republic of Congo. Cobalt is used in mobile phone batteries and Amnesty accuses several global electronics brands of failing to do basic supply chain checks. Raising awareness of child labour issues can help in advancing SDG target 8.7 to eradicate forced labour, end modern slavery and human trafficking by 2025.

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