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Renewable Energy Sources in Economic Security
Research Guide

What is Renewable Energy Sources in Economic Security?

Renewable Energy Sources in Economic Security examines the integration of solar, wind, biomass, and other renewables into national and enterprise-level strategies to enhance economic resilience, energy independence, and sustainable development amid resource constraints.

This subtopic analyzes policy frameworks, investment impacts, and technological innovations linking renewables to economic stability, particularly in agriculture and industry. Key studies from Ukraine and EU contexts highlight energy efficiency gaps and systemic security metrics, with over 1,200 citations across 15 core papers since 2019. Research emphasizes transitions from fossil fuels to bioenergy and green investments for long-term security.

Curated Papers

Key Challenges

Why It Matters

Renewable energy bolsters economic security by reducing import dependence, as shown in Kharazishvili et al. (2021) systemic approach for Ukraine's energy security (124 citations). In agriculture, Rokicki et al. (2021) document EU energy consumption shifts enabling cost savings and resilience (103 citations), while Mihno et al. (2020) link green economy to resource efficiency in industrial expansion (199 citations). Lyulyov et al. (2021) reveal government policies narrowing energy efficiency gaps, critical for geopolitical stability (135 citations). These applications support food security and rural development, per Lyulyov et al. (2019) on sustainable agriculture (78 citations).

Key Research Challenges

Energy Efficiency Gaps

Investment and institutional barriers hinder renewable adoption, widening efficiency gaps in transitioning economies. Lyulyov et al. (2021) identify these via bibliometric analysis in Ukraine (135 citations). Policies must address them for economic security.

Systemic Security Measurement

Quantifying energy security across renewables requires multifaceted indicators beyond traditional metrics. Kharazishvili et al. (2021) apply systemic approaches for Ukraine, revealing dynamic process gaps (124 citations). Standardization remains elusive.

Agricultural Energy Transitions

Crop residue and biofuel integration face logistical and resource competition challenges in farming. Rokicki et al. (2021) analyze EU agricultural energy shifts (103 citations), while Jiang et al. (2019) assess Ukraine's residue potential (71 citations). Scaling competes with food production.

Essential Papers

Green Economy in Sustainable Development and Improvement of Resource Efficiency

Інеса Міхно, Viktor Koval, Galyna Shvets et al. · 2020 · Central European Business Review · 199 citations

In the expansion of volumes of industrial production, there is an increase of anthropogenic influence and deterioration of the external environment that became the reason for the impossibility of a...

The Impact of the Government Policy on the Energy Efficient Gap: The Evidence from Ukraine

Oleksii Lyulyov, Tetyana Pimonenko, Aleksy Кwilinski et al. · 2021 · Energies · 135 citations

This paper aims to check the impact of investment and institutional determinants on the energy efficiency gap. The findings of the bibliometric analysis confirmed the growth of research interests i...

The Systemic Approach for Estimating and Strategizing Energy Security: The Case of Ukraine

Yurii Kharazishvili, Aleksy Кwilinski, Oleksandr Sukhodolia et al. · 2021 · Energies · 124 citations

The current approaches to estimating the level of energy security are based on applying a comprehensive approach to selecting the factors that affect energy security and the dynamics of processes i...

Changes in Energy Consumption in Agriculture in the EU Countries

Tomasz Rokicki, Aleksandra Perkowska, Bogdan Klepacki et al. · 2021 · Energies · 103 citations

The paper’s main purpose was to identify and present the current situation and changes in energy consumption in agriculture in the European Union (EU) countries. The specific objectives were the de...

The factors affecting green investment for sustainable development

Thi Thanh Tu Tran, Hong Nhung, Thi Ha Hai Vu et al. · 2020 · Decision Science Letters · 86 citations

In every nation's Green Growth Strategy, enterprise's green investment plays a vital role for sustainable development.In order to develop green investment activity for sustainable development, it i...

Innovative Processes in Managing an Enterprise from the Energy and Food Sector in the Era of Industry 4.0

Piotr F. Borowski · 2021 · Processes · 82 citations

The paper analyzes issues related to production processes in learning organizations using innovative solutions based on the Industry 4.0 paradigm. This study was realized by surveys and observation...

The Factorial-Reflexive Approach to Diagnosing the Executors’ and Contractors’ Attitude to Achieving the Objectives by Energy Supplying Companies

Aleksandra Kuzior, Aleksy Кwilinski, Ihor Hroznyi · 2021 · Energies · 79 citations

The article aims to enhance understanding of how relations, behavior and attitude of the executives and contractors to achieving the objectives by energy supplying companies affect the efficiency o...

Reading Guide

Foundational Papers

Start with Kaletnik et al. (2014) on Ukraine bioethanol potential (10 citations) for resource baselines, then Fuchs et al. (2011) on biogas-crop competition (6 citations) to grasp agricultural trade-offs.

Recent Advances

Prioritize Mihno et al. (2020, 199 citations) for green economy, Lyulyov et al. (2021, 135 citations) for policy analysis, and Kharazishvili et al. (2021, 124 citations) for security metrics.

Core Methods

Bibliometric analysis (Lyulyov et al., 2021), systemic indicator modeling (Kharazishvili et al., 2021), factorial-reflexive diagnostics (Kuzior et al., 2021), and energy consumption concentration metrics (Rokicki et al., 2021).

How PapersFlow Helps You Research Renewable Energy Sources in Economic Security

Discover & Search

PapersFlow's Research Agent uses searchPapers and exaSearch to query 'renewable energy economic security Ukraine agriculture', surfacing Mihno et al. (2020) (199 citations) as top result; citationGraph maps clusters from Lyulyov et al. (2021) to Kharazishvili et al. (2021), while findSimilarPapers expands to EU cases like Rokicki et al. (2021).

Analyze & Verify

Analysis Agent employs readPaperContent on Kharazishvili et al. (2021) to extract security indicators, verifies claims with CoVe against Lyulyov et al. (2021) datasets, and runs PythonAnalysis (pandas/matplotlib) to replicate energy efficiency correlations from Rokicki et al. (2021); GRADE scores evidence strength for policy impacts.

Synthesize & Write

Synthesis Agent detects gaps in green investment transitions from Tran et al. (2020), flags contradictions between Ukraine bioenergy (Jiang et al., 2019) and EU trends; Writing Agent uses latexEditText, latexSyncCitations for Kharazishvili et al. (2021), and latexCompile policy diagrams via exportMermaid.

Use Cases

"Analyze energy consumption trends in EU agriculture from Rokicki 2021 using Python."

Research Agent → searchPapers('Rokicki energy agriculture EU') → Analysis Agent → readPaperContent + runPythonAnalysis(pandas plot consumption data) → matplotlib graph of concentration degrees.

"Draft LaTeX policy brief on Ukraine renewable security citing Kharazishvili 2021."

Synthesis Agent → gap detection(Lyulyov 2021, Kharazishvili 2021) → Writing Agent → latexEditText(structured brief) → latexSyncCitations(10 papers) → latexCompile(PDF with exportMermaid security flowchart).

"Find code for crop residue power models from Jiang 2019 Ukraine."

Research Agent → paperExtractUrls('Jiang crop residue Ukraine') → paperFindGithubRepo → githubRepoInspect(bioenergy simulation scripts) → runPythonAnalysis(replicate residue utilization metrics).

Automated Workflows

Deep Research workflow conducts systematic review of 50+ papers on renewable economic security, chaining searchPapers → citationGraph → GRADE reports with Mihno et al. (2020) as anchor. DeepScan applies 7-step analysis to verify Lyulyov et al. (2021) policy impacts via CoVe checkpoints and Python replication. Theorizer generates hypotheses on agricultural biogas risks from Fuchs et al. (2011) and Rokicki et al. (2021).

Try Doxa for Renewable Energy Sources in Economic Security Research

Frequently Asked Questions

What defines Renewable Energy Sources in Economic Security?

It covers renewables' role in economic resilience via policy, investment, and innovation for energy independence, as in Mihno et al. (2020) green economy framework (199 citations).

What methods assess energy security with renewables?

Systemic factorial-reflexive approaches quantify indicators, per Kharazishvili et al. (2021) (124 citations) and Kuzior et al. (2021) attitude diagnostics (79 citations).

What are key papers?

Top cited: Mihno et al. (2020, 199 citations) on green economy; Lyulyov et al. (2021, 135 citations) on policy gaps; Rokicki et al. (2021, 103 citations) on EU agriculture.

What open problems persist?

Scaling crop residue power (Jiang et al., 2019, 71 citations), bridging investment gaps (Tran et al., 2020, 86 citations), and standardizing security metrics across regions.