Articles

Elsevier,

Sustainable Cities and Society, Volume 28, 1 January 2017

The sustainability of water resources depends on the dynamic interactions among the environmental, technological, and social characteristics of the water system and local population. These interactions can cause supply-demand imbalances at diverse temporal scales, and the response of consumers to water use regulations impacts future water availability. This research develops a dynamic modeling approach to simulate supply-demand dynamics using an agent-based modeling framework that couple models of consumers and utility managers with water system models.

Elsevier,

Procedia Manufacturing, Volume 8, 2017

Sustainable manufacturing extends beyond the manufacturing process and the product, to include the supply chain, across multiple product life-cycles as well as end-of-life considerations. Companies can gain a competitive advantage by applying sustainability manufacturing for environmental friendlier products and operations. Industry 4.0 sets new requirements for becoming a sustainable manufacturer where data management, the Internet of Things and extended product service systems are tightly linked with traditional manufacturing processes.

Elsevier,

Climate Risk Management, Volume 16, 2017

The primary objective of this study is to determine what drives states to plan for the impacts of a changing climate. As the climate continues to change, climate scientists have projected changes in water quantities available for human and other uses. This quantitative study examines how state water plans and state hazard mitigation plans address climate change. Plans were coded for the extent to which they address climate change in their calculations regarding future water supply and demand.

Elsevier,

Renewable and Sustainable Energy Reviews, Volume 67, 1 January 2017

The efficient utilization of clean energy resources to meet increasing electricity demand is imposing the integration of the electricity market and the construction of secure transmission mechanisms around the globe. Accordingly, the Association of Southeast Asian Nations (ASEAN) is integrating its large geographical power transmission infrastructure via the ASEAN power grid (APG). This study extensively reviews the energy resources (i.e., fossil fuels and renewables), the current utilization, and the future projection for ASEAN.

Elsevier,

Renewable and Sustainable Energy Reviews, Volume 71, 2017

In this paper, five most emerging renewable energy sources are analyzed. These emerging renewables are either special or advanced forms of the mainstream energy sources (solar, wind, geothermal, biofuels, biomass, and hydro) or brand new technologies. The five emerging renewable technologies discussed in this paper include marine energy, concentrated solar photovoltaics (CSP), enhanced geothermal energy (EGE), cellulosic ethanol, and artificial photosynthesis.

Elsevier, Chem, Volume 1, 1 December 2016
Professor Paul T. Anastas holds the Teresa and H. John Heinz II Chair in Chemistry for the Environment at Yale University and serves as director of the Center for Green Chemistry and Green Engineering at Yale. He has published widely on the subject of green chemistry and has served in the administration of three US presidents. Professor Julie Zimmerman is an internationally recognized engineer whose work is focused on advancing innovations in sustainable technologies.
Elsevier, Chem, Volume 1, 8 December 2016
Dr. Jeannette García is a chemist at IBM Research–Almaden. Her research focuses on the rational design of new polymers and materials through sustainable methods and targeting recyclable materials with previously inaccessible properties. García received her PhD in chemistry at Boston College in 2012 under the guidance of Dr. Amir H. Hoveyda and worked with Dr. Jim Hedrick as a postdoctoral researcher until 2013.
Elsevier, Physics Reports, Volume 664, 9 December 2016
Historically, infectious diseases caused considerable damage to human societies, and they continue to do so today. To help reduce their impact, mathematical models of disease transmission have been studied to help understand disease dynamics and inform prevention strategies. Vaccination–one of the most important preventive measures of modern times–is of great interest both theoretically and empirically. And in contrast to traditional approaches, recent research increasingly explores the pivotal implications of individual behavior and heterogeneous contact patterns in populations.
Elsevier, Science Bulletin, Volume 61, 1 December 2016
Future climate change is usually projected by coupled earth system models under specific emission scenarios designed by integrated assessment models (IAMs), and this offline approach means there is no interaction between the coupled earth system models and the IAMs. This paper introduces a new method to design possible future emission scenarios and corresponding climate change, in which a simple economic and climate damage component is added to the coupled earth system model of Beijing Normal University (BNU-ESM).

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