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Physical Sciences · Energy

Energy, Environment, Agriculture Analysis
Research Guide

What is Energy, Environment, Agriculture Analysis?

Energy, Environment, Agriculture Analysis is the interdisciplinary study of energy consumption patterns, renewable energy technologies, agricultural practices, and their environmental impacts, including water management, nutrient management, and flood mitigation.

This field encompasses 62,964 published works examining intersections of energy use in residential and agricultural settings with sustainability measures. Key areas include ammonia emissions from livestock buildings, thermal comfort in energy-efficient buildings, and phase change materials for heat storage. Research addresses fuel cell technology, radiant ceiling panels, and combined heat and power systems in residential contexts.

Topic Hierarchy

100%
graph TD D["Physical Sciences"] F["Energy"] S["Renewable Energy, Sustainability and the Environment"] T["Energy, Environment, Agriculture Analysis"] D --> F F --> S S --> T style T fill:#DC5238,stroke:#c4452e,stroke-width:2px
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63.0K
Papers
N/A
5yr Growth
29.2K
Total Citations

Research Sub-Topics

Agricultural Nutrient Management Systems

This sub-topic optimizes nitrogen/phosphorus application via precision farming, 4R principles, and modeling to minimize leaching. Researchers study soil testing, crop uptake, and environmental impacts.

15 papers

Renewable Energy in Agricultural Operations

This sub-topic evaluates solar irrigation, biomass digesters, and wind energy integration in farming energy needs. Researchers conduct LCA and economic analyses for rural electrification.

15 papers

Water Management in Paddy Rice Systems

This sub-topic explores alternate wetting-drying (AWD), deficit irrigation, and laser leveling for water-efficient rice cultivation. Researchers measure savings, yields, and greenhouse gas emissions.

15 papers

Energy Consumption in Residential Agriculture

This sub-topic analyzes household-level energy use in peri-urban farming, greenhouses, and livestock via audits and IoT monitoring. Researchers model demand-side management and efficiency interventions.

15 papers

Flood Mitigation in Agricultural Landscapes

This sub-topic designs riparian buffers, constructed wetlands, and contour farming to attenuate flood peaks and retain sediments. Researchers use hydrological modeling and field trials.

15 papers

Why It Matters

Analysis in this field supports reduced environmental impacts from agriculture and energy use, such as lowering ammonia emissions in Northern European livestock buildings documented by Groot Koerkamp et al. (1998) at concentrations up to specified levels in their study of 13 building types. Residential energy optimization through CHP systems, as sized optimally by Ren et al. (2007), cuts fuel consumption by balancing heat and power demands. Heat storage using phase change materials, modeled by Farid and Kanzawa (1989) for vertical cylindrical capsules, enables efficient solar energy retention, while Velraj et al. (1997) analyzed inward solidification in finned tubes for latent heat units, aiding renewable integration in buildings.

Reading Guide

Where to Start

"Concentrations and Emissions of Ammonia in Livestock Buildings in Northern Europe" by Groot Koerkamp et al. (1998), as it provides empirical data on agricultural environmental impacts central to the field's intersection of farming and emissions.

Key Papers Explained

Groot Koerkamp et al. (1998) establish ammonia emission baselines from livestock, informing energy and nutrient management needs addressed by van Es (1978) in ruminant feed systems. Imanari et al. (1999) extend to residential thermal comfort via radiant panels, while Ren et al. (2007) optimize CHP sizing for such buildings. Farid and Kanzawa (1989) model PCM heat storage, built upon by Velraj et al. (1997) through finned tube experiments for practical solar applications.

Paper Timeline

100%
graph LR P0["Feed evaluation for ruminants. I...
1978 · 396 cites"] P1["Sleeping and waking disorders : ...
1982 · 595 cites"] P2["Algemene Nederlandse spraakkunst
1984 · 397 cites"] P3["Fluid-Dynamic Lift
1985 · 266 cites"] P4["Concentrations and Emissions of ...
1998 · 486 cites"] P5["Thermal comfort and energy consu...
1999 · 330 cites"] P6["Foodborne Infections and Intoxic...
2021 · 349 cites"] P0 --> P1 P1 --> P2 P2 --> P3 P3 --> P4 P4 --> P5 P5 --> P6 style P1 fill:#DC5238,stroke:#c4452e,stroke-width:2px
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Most-cited paper highlighted in red. Papers ordered chronologically.

Advanced Directions

Current work builds on 62,964 papers in energy consumption and agricultural sustainability, with gaps in integrating CHP optimization from Ren et al. (2007) with PCM advancements by Velraj et al. (1997) for off-grid farming, amid no recent preprints.

Papers at a Glance

# Paper Year Venue Citations Open Access
1 Sleeping and waking disorders : indications and techniques 1982 Medical Entomology and... 595
2 Concentrations and Emissions of Ammonia in Livestock Buildings... 1998 Journal of Agricultura... 486
3 Algemene Nederlandse spraakkunst 1984 Medical Entomology and... 397
4 Feed evaluation for ruminants. I. The systems in use from May ... 1978 Livestock Production S... 396
5 Foodborne Infections and Intoxications 2021 Elsevier eBooks 349
6 Thermal comfort and energy consumption of the radiant ceiling ... 1999 Energy and Buildings 330
7 Fluid-Dynamic Lift 1985 Medical Entomology and... 266
8 Optimal sizing for residential CHP system 2007 Applied Thermal Engine... 252
9 Experimental analysis and numerical modelling of inward solidi... 1997 Solar Energy 240
10 Thermal Performance of a Heat Storage Module Using PCM’s With ... 1989 Journal of Solar Energ... 237

Frequently Asked Questions

What are ammonia concentrations in livestock buildings?

Groot Koerkamp et al. (1998) measured ammonia concentrations and emissions in livestock buildings across Northern Europe, covering 13 building types. Their data provide baseline values for environmental evaluation and mitigation strategies in agricultural practices.

How does radiant ceiling panel system affect thermal comfort and energy use?

Imanari et al. (1999) evaluated the radiant ceiling panel system for thermal comfort and energy consumption in buildings. The system maintains comfort while reducing overall energy needs compared to conventional methods.

What methods improve heat storage in solar energy applications?

Farid and Kanzawa (1989) developed mathematical modeling for a heat storage module using phase change materials with different melting temperatures in vertical cylindrical capsules. Air flows across capsules for heat exchange, optimizing performance through radial temperature distribution analysis.

How is optimal sizing determined for residential CHP systems?

Ren et al. (2007) analyzed optimal sizing for residential combined heat and power systems to minimize costs and emissions. Their approach balances electrical and thermal loads specific to residential energy consumption patterns.

What is the role of phase change materials in latent heat storage?

Velraj et al. (1997) conducted experimental analysis and numerical modeling of inward solidification on finned vertical tubes for latent heat storage units. This design enhances heat transfer efficiency in solar energy storage applications.

What defines energy consumption in agricultural feed evaluation?

Van Es (1978) outlined feed evaluation systems for ruminants used in The Netherlands from 1977, linking nutritional value to energy efficiency in livestock production.

Open Research Questions

  • ? How can phase change material configurations in cylindrical capsules be optimized beyond radial temperature models to account for real-time airflow variations?
  • ? What sizing criteria for residential CHP systems best integrate variable renewable energy inputs like solar without excess capacity?
  • ? Which finned tube geometries maximize solidification rates in latent heat storage under fluctuating agricultural waste heat sources?
  • ? How do ammonia emission profiles from diverse livestock buildings inform scalable nutrient management across varying climates?
  • ? What radiant ceiling panel designs achieve thermal comfort in high-energy residential areas while minimizing peak loads?

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