Technological Development

Electricity systems based on renewables have an increasing demand for flexibility. This paper considers the potential of power-to-gas to provide flexibility and enhance system integration of renewables. Existing research on power-to-gas typically analyses the system effects of a predetermined power-to-gas unit without endogenising the investment decision. Moreover, insights related to market and portfolio effects of power-to-gas are rare. To this end this work presents a stochastic electricity market model.
Elsevier, Progress in Disaster Science, Volume 2, July 2019
The Sendai Framework for Disaster Risk Reduction encourages investment in innovation and technology development in disaster risk management. However, needs for science and technology inputs are unmet, and there is a lack of policy making that is based on science and evidence. This paper identified three key issues that could help overcome these barriers: networking, coproduction of knowledge, and a stronger role played by academia.
The UN has adopted the Sendai Framework for Disaster Risk Reduction (2015–2030; SFDRR) in March 2015 and the member countries agreed to shift from disaster management to disaster risk management. The SFDRR is in line with the UN Sustainable Development Goals (SDGs; September 2015). In 2016, the UNISDR together with partner organizations has prepared roadmap for mainstreaming Science and Technology in SFDRR. Out of four priority areas, this paper focuses on the appraisal of challenges in SFDRR priority 1 “understanding disaster risk” through the lens of science, technology and innovations.
Nutrient recycling has been practiced for thousands of years in China to maintain food production without environmental pollution. In the past three decades, however, the traditional nutrient recycling systems have been replaced with waste treatment systems, which have resulted in rapid and severe environmental pollution.
Elsevier, Urban Forestry and Urban Greening, Volume 20, 1 December 2016
Aquaponics is an innovative smart and sustainable production system for integrating aquaculture with hydroponic vegetable crops, that can play a crucial role in the future of environmental and socio-economic sustainability in smart cities. These cities aim mobilize all knowledge centers and Information and Communication Technologies (ICT) into innovation hubs in order to strengthen the socio-economic progress.
A review of electricity access projects in rural areas reveals a number of unsustainable features. Each rural area can be very different with regard to the socioeconomic conditions and the dynamics between society and technology. This research is a comparative study to assess the impact of techno socioeconomic factors on the sustainability of two microhydro power projects. The assessment of sustainability projects was based on sustainable development indicators for rural electrification, considering technical, economic, social, environmental and institutional sustainability.
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.
What is the best strategy to encourage research and development on new energy technologies in a market economy? What steps can ensure a rapid and efficient transition to an economy that has much lower net carbon emissions? This paper shows that, under limited conditions, a necessary and sufficient condition for an appropriate innovational environment is a universal, credible, and durable price on carbon emissions.