Physics for a Sustainable Future

About the Study Group

The Physics for a Sustainable Future group connects fundamental physics with concrete sustainability challenges. We focus on quantitative reasoning, experimental method, and data‑driven analysis to build solutions that scale beyond the classroom.

Mentorship: Enis Yazıcı (SRH University Heidelberg). Contact: enis.yazici@srh.de.

Focus Areas

Renewable Energy Systems: solar, wind, hydro; energy conversion and efficiency; power measurement.
Climate & Thermodynamics: heat transfer, radiation balance, simple climate models, uncertainty.
Sustainable Materials: mechanical/thermal properties, durability, recyclability, life‑cycle thinking.
Fluids & Water: Bernoulli, continuity, pipe/river flow; measurement and control in networks.
Instrumentation & Data: sensors, calibration, error analysis, Python notebooks, dashboards.

Projects hosted in this group

IoT Monitoring & Embedded Systems

Solar‑powered LoRa sensor nodes and low‑cost data loggers for temperature, humidity, and air‑quality monitoring. The network supports comparative field studies across partner campuses and local communities.

See details ↓

Climate Change & Education

Teaching and outreach materials that blend physics with climate science. Citizen‑science kits, classroom labs, and public engagement tools to foster awareness and practical action.

See details ↓

IoT Monitoring & Embedded Systems — Details

We aim to design and deploy field‑ready sensor stations (temperature, humidity, particulate matter). Nodes communicate via LoRa or Wi‑Fi, log data locally, and publish to a central database for analysis and visualization. Students work in small teams on hardware integration, low‑power firmware, and web dashboards.

Hardware: microcontrollers, LoRa radios, solar modules, calibrated sensors.
Data: time‑series ingestion, metadata, QA/QC, simple ML for anomaly detection.
Outcomes: live dashboards, comparative studies across cities/campuses, open datasets.

Related: Smart Water Management → All projects →

Climate Change & Education — Details

We integrate physics‑based climate topics into lessons and workshops. The group aims to build clear, hands‑on materials that translate abstract models (energy balance, feedbacks, diffusion) into measurable experiments and data stories.

Printable kits for heat transfer and radiation experiments.
Notebook activities connecting measurements to simple models.
Community sessions and demo days for sharing results.

Related: AI & Data for Climate → All projects →

Join Us

If you want rigorous physics with practical impact, join a project stream or propose your own topic. We welcome students from partner universities for hybrid collaboration.

Contact Back to Home →