Solution For Renewable Energies University Level

Renewable

Energies

Technical solution for Renewable Energies - University level

Didactic Manufactur Hamburg provides comprehensive solutions for courses in the field of Renewable Energies for Universities, specialized Institutes and professional training facilities.

These solutions are structured according to the different specializations listed below and offer a well balanced combinantion of didactic systems and professional-grade equipment designed for education, training as well as for some project-research fields.

As the range of equipment associated with these specializations is entesive and depends on the specific objectives and structure of each course, DMH prepares and provide quotations following an individual consultation to ensure the most suitable solution for your educational requierments.

Following our philosophy, all the didactical equipment will be delivered with it´s predefined course program to ensure a 100% exploitation of the equipment.

Energy Efficiency & Building Technology

Passive House

Building Simulation

HVAC

Heat Recovery

Energy Audits

District Solutions

The recommended basic didactic equipment for your Renewable Energies faculty includes

PV Solar Simulator & I-V Curve Measurement Station

Measure Real I-V Curves on Various Cell Types

Influence of Temperature and Irradiationi

Microgrid Demonstrator (AC/DC, PV, Battery, Load)

Load Flow

Island Operation

Visualize Grid Feed-in in Real Time

Biogas Fermenter (Laboratory Scale)

Substrate Analysis

Gas Quality

Retention Time

Practical Bioprocess Engineering

Thermal Imaging Camera & Blower Door System

Identify Thermal Bridges and Airtightness in Real Buildings

Heat Pump Demonstration System

COP Measurement under Various Operating Conditions

Visible Refrigerant Cycle

H2 Demonstration System (Electrolyzer + Fuel Cell)

Experience the Entire Green Hydrogen Value Chain in the Laboratory

Mini Wind Tunnel with Interchangeable Rotor Blades

Test Aerodynamic Profiles; Experimentally Determine Cp Curves

Safety Equipment (PPE)

Lab Coats, Safety Goggles, H₂ Detectors, Explosion Protection Basic Equipment

Digital Learning Environment

PC pool / workstations

Software with campus licenses

Basic and Demonstration Sets

Building blocks of nutrient cycles (N, P, K – uptake, losses, recycling)

Soil type sample collection with horizon description

Feed sample collection

Seed sample collection

Pest and pathogen collection

Fertilizer sample collection

Cut-away models of agricultural machinery

Safety / Occupational Health Training

PPE demonstration case (helmet, hearing protection, safety glasses, gloves, safety shoes)

Plant protection safety equipment (protective suit, respiratory protection, gloves)

First-aid training kit for agricultural operations

Safety videos

Key Questions to Clarify Before Planning

What exactly do I want to implement?

Do I have a clear idea of the structure of the individual disciplines?

How deeply do I want to delve into the subject matter?

What should the balance between theory and practice be?

What infrastructure do I have (technical / spatial / trial fields / barns)?

How well qualified is my staff?

What is my budget?

Which production systems are regionally relevant (arable farming, grassland, livestock, horticulture, tropical)?

Which animal species should be covered (cattle, pigs, poultry, sheep/goats, aquaculture)?

Should Digital Agriculture / Smart Farming be integrated as a cross-cutting competency?

Are trial fields and experimental barns already available or planned?

Should organic farming be offered as a separate specialization?

Is tropical agriculture / international orientation planned?

Which laboratories are already available (chemistry, soil, plant, animal, genetics)?

FOR THE RENEWABLE ENERGIES SECTOR, WE OFFER VARIOUS SOLUTIONS FROM THE FOLLOWING AREAS.

Photovoltaics & Solar Technology

Semiconductor Physics

Cell Types (c-Si, Thin-Film, Perovskite)

Solar Thermal Energy

System Design

Inverter Technology

Agri-PV

Bioenergy & Biomass

Biogas Technology

Fermentation

Pyrolysis

Wood Energy

Biorefinery

Biofuels

Geothermal Energy & Environmental Heat

Deep Geothermal Energy

Shallow Geothermal Energy

Heat Pumps

District Heating Networks

Thermal Response Tests

Energy Economics

Energy Markets

Energy Policy

Smart Grids & Grid Integration

Power Electronics

Grid Stability

Microgrids

SCADA

Load Management

Demand Response

Virtual Power Plants

Energy Storage & Hydrogen

Battery Technology (Li-Ion, Solid-State, Redox-Flow)

Electrolysis (PEM/AEL/SOEC)

Power-to-X

Fuel Cells

Storage Systems

Wind Energy

Aerodynamics

Rotor Design

Floating Systems

Acoustics

Vibration Analysis

Framework Conditions – Open Questions:

The following questions should be clarified for further specification of the faculty concept:

Which energy forms should be the focus (solar, wind, hydrogen, bioenergy, geothermal)?

Is a dedicated test field / living lab planned on campus (e.g. PV test field, microgrid)?

Which laboratories should be established from the start (prioritized by budget)?

Which software licenses are already available through the university (MATLAB, ANSYS, etc.)?

Is international accreditation (ABET, EUR-ACE) being pursued?

How many students per cohort are expected (laboratory dimensioning)?

Are there regional specificities ?

Take advantage of our extensive experience and expertise.

We will be happy to send you a personalized quote accompanied by

one or more useful extension options and modules.

Your Didaktik Manufaktur Hamburg Team !

Take advantage of our extensive experience and expertise.

We will be happy to send you a personalized quote accompanied by

one or more useful extension options and modules.

Your Didaktik Manufaktur Hamburg Team !

Take advantage of our extensive experience and expertise.

We will be happy to send you a personalized quote accompanied by

one or more useful extension options and modules.

Your Didaktik Manufaktur Hamburg Team !

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