Neven Duić mainly focuses on Environmental economics, Environmental engineering, Intermittent energy source, Fossil fuel and Energy storage. His Environmental economics research includes elements of Energy engineering, Electricity generation, Feed-in tariff, System integration and Energy accounting. Environmental engineering and Energy supply are commonly linked in his work.
His study looks at the relationship between Energy supply and topics such as Environmental protection, which overlap with Natural resource economics. His Intermittent energy source research includes themes of Pumped-storage hydroelectricity and Energy development. His Energy storage research incorporates themes from Energy intensity, Energy planning and Electric power system.
His primary areas of study are Environmental economics, Environmental engineering, Waste management, Energy planning and Electricity generation. The study incorporates disciplines such as Energy engineering, Energy policy, Feed-in tariff, Energy supply and Demand response in addition to Environmental economics. His studies deal with areas such as Energy development, Pumped-storage hydroelectricity, Intermittent energy source, Energy storage and Fossil fuel as well as Environmental engineering.
Energy storage connects with themes related to Electric power system in his study. His Waste management study incorporates themes from Waste heat, Process engineering and Cement. In his research, Neven Duić undertakes multidisciplinary study on Energy planning and Cape verde.
Neven Duić mainly investigates Environmental economics, Demand response, Electricity generation, Waste management and Process engineering. His Environmental economics study combines topics from a wide range of disciplines, such as Variable renewable energy, Energy storage, Energy planning, Energy policy and Energy transition. His study in the field of Pumped-storage hydroelectricity is also linked to topics like Energy source.
His work carried out in the field of Demand response brings together such families of science as Electricity market, Association rule learning, Apriori algorithm, Vehicle-to-grid and Operations research. His research integrates issues of Heat pump, Cost of electricity by source, Primary energy and Power station in his study of Waste management. His studies in Process engineering integrate themes in fields like Investment and Thermal energy storage.
His scientific interests lie mostly in Environmental economics, Demand response, Electricity generation, Energy storage and Variable renewable energy. His Environmental economics study integrates concerns from other disciplines, such as Grid, Process and System integration. His Grid research is multidisciplinary, incorporating elements of Production and Energy engineering.
As a member of one scientific family, Neven Duić mostly works in the field of Demand response, focusing on Vehicle-to-grid and, on occasion, Carbon neutrality, Civil engineering and Battery. His work deals with themes such as Megacity, Energy planning and Urban planning, which intersect with Electricity generation. His study deals with a combination of Energy storage and Energy source.
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The status of 4th generation district heating: Research and results
Henrik Lund;Poul Alberg Østergaard;Miguel Chang;Sven Werner.
A 100% renewable energy system in the year 2050: The case of Macedonia
Boris Ćosić;Goran Krajačić;Neven Duić.
The ash deposition mechanism in boilers burning Zhundong coal with high contents of sodium and calcium: A study from ash evaporating to condensing
Xuebin Wang;Zhaoxia Xu;Bo Wei;Lan Zhang.
Increasing renewable energy sources in island energy supply : case study Porto Santo
Neven Duić;Maria da Graça Carvalho.
Reducing Greenhouse Gasses Emissions by Fostering the Deployment of Alternative Raw Materials and Energy Sources in the Cleaner Cement Manufacturing Process
Hrvoje Mikulčić;Jiří Jaromír Klemeš;Milan Vujanović;Krzysztof Urbaniec.
Sustainable development using renewable energy technology
Poul Alberg Østergaard;Neven Duic;Younes Noorollahi;Hrvoje Mikulcic;Hrvoje Mikulcic.
How to achieve a 100% RES electricity supply for Portugal?
Goran Krajačić;Neven Duić;Neven Duić;Maria da Graça Carvalho.
Planning for a 100% independent energy system based on smart energy storage for integration of renewables and CO2 emissions reduction
Goran Krajačić;Neven Duić;Zlatko Zmijarević;Brian Vad Mathiesen.
Renewislands—Renewable energy solutions for islands
Fengzhen Chen;Neven Duic;Luis Manuel Alves;Maria da Graça Carvalho.
Two energy system analysis models: A comparison of methodologies and results
Henrik Lund;Neven Duic;Goran Krajacic;Maria da Graca Carvalho.
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