A Methodological Framework for Blockchain-Enabled Peer-to-Peer Solar Trading to Mitigate Urban Heat Islands: A Lagos, Togo Case Study (2021–2026)
ブロックチェーン対応ピアツーピア太陽光取引による都市ヒートアイランド緩和の方法論的枠組み:ラゴス・トーゴのケーススタディ(2021-2026年) (AI 翻訳)
Elia Lona James
🤖 gxceed AI 要約
日本語
本論文は、アフリカの都市における気候適応策として、ブロックチェーンを用いたピアツーピア太陽光発電取引の方法論的枠組みを提案する。ラゴスを対象に、低コストセンサー網と許可型ブロックチェーンを組み合わせ、表面温度やエネルギー取引量の長期データを収集・分析する。この枠組みは、屋上太陽光発電の普及促進と都市ヒートアイランド緩和の同時達成を目指す。
English
This paper proposes a methodological framework for blockchain-enabled peer-to-peer solar PV trading as a climate adaptation strategy in African cities, using Lagos as a case study. It combines a permissioned blockchain platform with a network of low-cost sensors to collect longitudinal data on surface temperatures, energy generation, and trade volumes. The framework aims to incentivize rooftop solar proliferation and quantify urban heat island mitigation co-benefits.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
日本では、都市部のヒートアイランド対策と再生可能エネルギー導入は別々に議論されることが多いが、本論文は両者を統合する方法論を提示しており、日本の自治体や都市計画担当者にとって新たな視点を提供する。ただし、アフリカの文脈に特化しており、日本の制度や技術基盤への直接適用には調整が必要。
In the global GX context
This paper offers a novel integration of decentralized energy markets and urban climate adaptation, which is relevant to global discussions on climate-resilient infrastructure and energy transition in the Global South. It provides a replicable methodology for linking P2P solar trading with measurable cooling benefits, addressing a gap in empirical evidence for nature-based and technology-driven solutions.
👥 読者別の含意
🔬研究者:Researchers in urban climate, energy systems, and blockchain applications can adopt the mixed-methods framework for similar data-scarce contexts.
🏢実務担当者:Urban planners and energy project developers can use the framework to design integrated solar trading and heat mitigation projects.
🏛政策担当者:Policymakers in developing countries can consider this approach for simultaneously advancing energy access and climate resilience.
📄 Abstract(原文)
This methodology article presents a novel framework for implementing blockchain-enabled peer-to-peer (P2P) solar photovoltaic (PV) trading as a dual-purpose strategy for climate adaptation in African cities, specifically targeting urban heat island (UHI) mitigation. It addresses the lack of integrated methodologies that link decentralised renewable energy markets with measurable urban cooling co-benefits in data-scarce contexts. Focusing on Lagos, Nigeria, from 2021–2026, the proposed mixed-methods approach combines a technical layer—a permissioned blockchain platform for secure P2P transactions—with a rigorous empirical monitoring protocol. This involves deploying a calibrated network of low-cost sensors across participating households to collect longitudinal, high-resolution data on surface temperatures, energy generation, and trade volumes. The framework's validation phase (2024–2025) is designed to test its capacity to incentivise rooftop PV proliferation, thereby reducing anthropogenic heat from centralised grids and altering local albedo. A core methodological contention is that the systematic integration of transactional and biophysical data is essential for robustly quantifying the UHI mitigation directly attributable to the P2P mechanism. The significance lies in providing urban planners and energy policymakers with a replicable, evidence-based tool to concurrently advance energy security and climate resilience. This work underscores the potential of locally contextualised technological solutions to address interconnected socio-environmental challenges.
🔗 Provenance — このレコードを発見したソース
- openalex https://doi.org/10.5281/zenodo.18360205first seen 2026-05-05 19:09:32
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gxceed は公開メタデータに基づく研究支援データセットです。要約・翻訳・解説は AI 支援で生成されています。 最終的な解釈・検証は利用者が原典資料に基づいて行うことを前提とします。