The internal combustion engine does not efficiently convert chemical energy into mechanical energy and most of the energy is lost as heat. This paper discusses promising technologies for passive waste heat recovery system, addressing SDGs 9,12 and 13.
Membrane (bio)fouling is a major problem in separation and purification processes. This paper highlights recent advances in the design and development of highly resistant thin film composite membranes through surface modification. This is particularly relevant to SDG 6 (ensure availability and sustainable management of water and sanitation for all) and the related innovations in design make this relevant for SDG 9 (build resilient infrastructure, promote inclusive and sustainable industrialization and foster innovation) as well.
High performance, cost-effective and environmentally acceptable separation systems is highly desirable in tackling the sustainability challenges facing current desalination technology. This paper provides a brief insight into the roles and prospective of nanotechnology, particularly the nano-enabled membrane technology, to serve as a key element to render feasible solutions for sustainable development in membrane desalination technology. This relates to SDG 6 and 9.
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. This paper provides an overview of the main implications of using MEA for CO2 capture together with the latest advances in research to improve the conventional absorption process. The use of other solvents and/or technology, as well as their advantages and disadvantages will also be briefly provided. This is relevant for SDGs 9,12 and 13.

Sustainable Cities and Society, Volume 19, December 2015, Pages 200-206

The growth in the world's population has both created and increased the size of existing mega cities. The raised temperatures of these cities, known as urban heat islands, contribute to increased pollution and health-related problems. SDG 11 aims to target urban populations - making their lives healthier and cities more sustainable. The studies of mitigation strategies in this article reveal areas of weakness in modeling designs and prediction stages to advance knowledge on SDG 11 and SDG 3.
Reed Exhibitions,

World Efficiency Solutions - La Galerie des Solutions, 9 December 2015

The Business Case for Carbon Neutral Cities session was hosted by UNEP and Sustainable Energy for All in collaboration with the Danish Ministry of Foreign Affairs, the Swedish Trade and Invest Council and Empower, the largest district cooling operator in the world. Held at La Galerie des Solutions (by World Efficiency Solutions), an exhibition of climate solutions, that took place during the COP21, in immediate proximity to the negotiations zone.

Energy and Buildings, Volume 103, 15 September 2015, Pages 414-419

Thermal Energy Storage (TES) is a proven way to improve the energy efficiency of a building, which also has economic benefits. Given target 11.6 aims to reduce environmental impacts of cities, it is important to explore ways in which buildings can become more energy efficient. This article reviews both active and passive storage systems.
Project Clean Cow
This special report focuses on getting the most out of your innovation effort. A close focus on several key areas can help. Product innovation can open up new markets for producers and enable them to maintain competitiveness in increasingly competitive global markets. This fits well with the SDG 9 of Industry Innovation, also Technology, Production & Consumption.

Journal of Cleaner Production, Volume 77, 2014, Pages 94-104

Total Site Heat Integration (THSI) offers potential to increase energy savings and efficiency. THSI is important to industry since it will help the optimisation of steam and water losses in utility systems to efficiently support utilities consumption in process industry. The article explains the use of extended total site problem table algorithm as a systematic numerical approach to calculate the sensible heat to meet the total site utility requirements. The work supports the SDG 12: Ensure Sustainable Consumption and Production Patterns; SDG 9: Industry, innovation and infrastructure for Sustainable Industrilisation; and SDG 7: Affordable and Clean Energy.
Focused on a Green Future
Italy's leading petrochemical producer, Versalis has taken a fundamental shift in its strategy and direction, to renew its focus on innovation and green chemistry, providing opportunities for growth. This is the ICIS/Versalis supplement about green and bio-based chemicals and sustainabliity with videos embedded. Green chemistry fits in with SDG 9 Industry Innovation and SDG 7 Affordable Clean Energy.