Key Technologies and Applications of Agricultural Energy Internet for Agricultural Planting and Fisheries industry
暂无分享,去创建一个
[1] Xueqian Fu,et al. Modelling of agricultural energy internet considering the integration of planting industry and new energy , 2022, Frontiers in Energy Research.
[2] P. Zhou,et al. A digital business model for accelerating distributed renewable energy expansion in rural China , 2022, Applied Energy.
[3] Xueqian Fu. Viewpoints on the Experiences and Challenges of Fishery Energy Internet , 2022, Frontiers in Energy Research.
[4] Xueqian Fu,et al. Viewpoints on the Theory of Agricultural Energy Internet , 2022, Frontiers in Energy Research.
[5] Xueqian Fu,et al. Key technologies and applications of rural energy internet in China , 2022, Information Processing in Agriculture.
[6] T. Bolkesjø,et al. Balancing GHG mitigation and land-use conflicts: Alternative Northern European energy system scenarios , 2022, Applied Energy.
[7] M. Alam,et al. Crop-Specific Optimization of Bifacial PV Arrays for Agrivoltaic Food-Energy Production: The Light-Productivity-Factor Approach , 2021, IEEE Journal of Photovoltaics.
[8] A. El-Sayed,et al. A Study on Pesticide Sprayer Powered by Solar Energy Appropriate for Small Farms , 2021, Arab Universities Journal of Agricultural Sciences.
[9] Roland Gerhards,et al. Sensor-Based Intrarow Mechanical Weed Control in Sugar Beets with Motorized Finger Weeders , 2021, Agronomy.
[10] Shanshan Li,et al. Coupling mechanism and development prospect of innovative ecosystem of clean energy in smart agriculture based on blockchain , 2021 .
[11] Wen Liu,et al. Increasing the comprehensive economic benefits of farmland with Even-lighting Agrivoltaic Systems , 2021, PloS one.
[12] H. Ding,et al. Energy, exergy, exergoeconomic, and environmental analysis of a new biomass-driven cogeneration system , 2021 .
[13] H. Jia,et al. Prospects of key technologies of integrated energy systems for rural electrification in China , 2021 .
[14] Xueqian Fu,et al. A Review of Key Technologies and Trends in the Development of Integrated Heating and Power Systems in Agriculture , 2021, Entropy.
[15] Mohamed Amine Ferrag,et al. A Survey on Smart Agriculture: Development Modes, Technologies, and Security and Privacy Challenges , 2021, IEEE/CAA Journal of Automatica Sinica.
[16] K. Plizga. Analysis of Energy Consumption by Electric Agricultural Tractor Model Under Operating Conditions , 2021 .
[17] Junyong Liu,et al. Agricultural Load Modeling Based on Crop Evapotranspiration and Light Integration for Economic Operation of Greenhouse Power Systems , 2021 .
[18] Wenhui Shi,et al. Grid Connection and Transmission Scheme of Large-Scale Offshore Wind Power , 2021, Chinese Journal of Engineering Science.
[19] D. Carey,et al. Offshore Wind Farm Artificial Reefs Affect Ecosystem Structure and Functioning: A Synthesis , 2020, Oceanography.
[20] J. Stanley,et al. Acoustic Impacts of Offshore Wind Energy on Fishery Resources: An Evolving Source and Varied Effects Across a Wind Farm’s Lifetime , 2020 .
[21] Tao Sun,et al. Effect of desert photovoltaic on sand prevention and control—taking Gansu Gulang Zhenfa photovoltaic DC field as an example , 2020, IOP Conference Series: Earth and Environmental Science.
[22] Ondrej Krejcar,et al. Smart and Climate-Smart Agricultural Trends as Core Aspects of Smart Village Functions , 2020, Sensors.
[23] D. He,et al. Leaf development and energy yield of hydroponic sweetpotato seedlings using single-node cutting as influenced by light intensity and LED spectrum. , 2020, Journal of plant physiology.
[24] C. K. Mukherjee,et al. Design characteristics of perforated pooled circular stepped cascade (PPCSC) aeration system , 2020 .
[25] Wei Gao,et al. Effects of Daily Light Integral and LED Spectrum on Growth and Nutritional Quality of Hydroponic Spinach , 2020, Agronomy.
[26] Xueqian Fu,et al. Security analysis of a park-level agricultural energy Internet considering agrometeorology and energy meteorology , 2020 .
[27] Cristiano Bonato Both,et al. LoRa mesh architecture for automation of rural electricity distribution networks , 2020, Electronics Letters.
[28] Daoliang Li,et al. Experimental Validation of a Low-Energy-Consumption Heating Model for Recirculating Aquaponic Systems , 2020, Energies.
[29] Y. Qu,et al. Growth, nutritional quality, and energy use efficiency in two lettuce cultivars as influenced by white plus red versus red plus blue LEDs , 2020, International Journal of Agricultural and Biological Engineering.
[30] M. Moturi,et al. Assessment of the new generation aeration systems efficiency and water current flow rate, its relation to the cost economics at varying salinities for Penaeus vannamei culture , 2020 .
[31] Sudip Mittal,et al. Security and Privacy in Smart Farming: Challenges and Opportunities , 2020, IEEE Access.
[32] You Wang,et al. Corrigendum to "CO2 and HCl-induced seawater acidification impair the ingestion and digestion of blue mussel Mytilus edulis" [Chemosphere 240 (2020) 124821]. , 2020, Chemosphere.
[33] M. Effenberger,et al. Distribution of specific greenhouse gas emissions from combined heat-and-power production in agricultural biogas plants , 2020 .
[34] Yang Wang,et al. Numerical investigation on a low energy-consumption heating method for recirculating aquaponic systems , 2020, Comput. Electron. Agric..
[35] Dong Zhang,et al. Annual energy characteristics and thermodynamic evaluation of combined heating, power and biogas system in cold rural area of Northwest China , 2020 .
[36] C. Poncet,et al. The Effect of Different Levels of Shading in a Photovoltaic Greenhouse with a North–South Orientation , 2020, Applied Sciences.
[37] G. Niu,et al. Effect of Light Intensity on Rooting and Growth of Hydroponic Strawberry Runner Plants in a LED Plant Factory , 2019 .
[38] Shanjian Liu,et al. Synchronously electricity generation and degradation of biogas slurry using microbial fuel cell , 2019, Renewable Energy.
[39] Nan Liu,et al. Effects of LED light quality on the growth of pepper seedling in plant factory , 2019, International Journal of Agricultural and Biological Engineering.
[40] P. Wignall,et al. Seawater Temperature and Dissolved Oxygen over the Past 500 Million Years , 2019, Journal of Earth Science.
[41] A. Martynenko,et al. Numerical investigation of the multi-pin electrohydrodynamic dryer: Effect of cross-flow air stream , 2019, Drying Technology.
[42] V. Girardin,et al. Measuring sensitivity of two OSPAR indicators for a coastal food web model under offshore wind farm construction , 2019, Ecological Indicators.
[43] Song Shuran,et al. Variable Rate Liquid Fertilizer Applicator for Deep-fertilization in Precision Farming Based on ZigBee Technology , 2019, IFAC-PapersOnLine.
[44] P. K. Soori,et al. A Low-Cost and Energy-Efficient Smart Dust Cleaning Technique for Solar Panel System , 2018, 2018 International Conference on Smart Grid and Clean Energy Technologies (ICSGCE).
[45] Juan Bald,et al. A review of potential impacts of submarine power cables on the marine environment: Knowledge gaps, recommendations and future directions , 2018, Renewable and Sustainable Energy Reviews.
[46] C. Kang,et al. Combination effects of roof coating and solar photovoltaic system in the tropical region of Ghana: A case study , 2018, Energy Exploration & Exploitation.
[47] Yu Cao,et al. Unravelling the causes of tidal asymmetry in deltas , 2018, Journal of Hydrology.
[48] Jianwu Tang,et al. Coastal blue carbon: Concept, study method, and the application to ecological restoration , 2018, Science China Earth Sciences.
[49] H. Lv,et al. A novel agricultural photovoltaic system based on solar spectrum separation , 2018 .
[50] N. Pearre,et al. Contrasting distributed and centralized photovoltaic system performance using regionally distributed pyranometers , 2018 .
[51] Guo Xiangping,et al. Assessing water scarcity in agricultural production system based on the generalized water resources and water footprint framework. , 2017, The Science of the total environment.
[52] Boris Delaide,et al. Plant and fish production performance, nutrient mass balances, energy and water use of the PAFF Box, a small-scale aquaponic system , 2017 .
[53] Bela H. Buck,et al. Aquaculture Perspective of Multi-Use Sites in the Open Ocean: The Untapped Potential for Marine Resources in the Anthropocene , 2017 .
[54] Gabriel Bernardes Martins,et al. The utilization of sodium bicarbonate, calcium carbonate or hydroxide in biofloc system: water quality, growth performance and oxidative stress of Nile tilapia (Oreochromis niloticus) , 2017 .
[55] Jun Xie,et al. Effect of the Different Shapes of Air Diffuser on Oxygen Mass Transfer Coefficients in Microporous Aeration Systems , 2016 .
[56] M. Gullström,et al. Offshore Wind Power for Marine Conservation , 2016 .
[57] Ning Mei,et al. Performance analysis of a solar-assisted OTEC cycle for power generation and fishery cold storage refrigeration , 2015 .
[58] E. Grimaldo,et al. Energy consumption of three different trawl configurations used in the Barents Sea demersal trawl fishery , 2015 .
[59] Liu Hon,et al. Simulation research on irrigation system with pump motor driven by variable frequency , 2014 .