Welcome to hydesign
HyDesign is the DTU tool for design, control and optimization of utility scale Hybrid Power- and Energy Plants including wind, solar, storage and P2X technologies.
For installation instructions, please see the Installation Guide.
- Source code repository and issue tracker:
- License:
Getting Started
The Quickstart section shows how to set up and perform some basic operations in hydesign.
Explanations of hydesign’s core objects can be found in the following tutorials:
- Quickstart
- Advanced HPP Model
- Evaluating the performance of a hybrid power plant with P2X using HyDesign
- HyDesign sizing examples
- Break-even price and power purchase agreement
- Example: Sizing a plant to meet constant electrical load
- Export the DOE
- Offshore HPP
- How to use iso-probabilistic transformations to obtain weather-corrleated spot markets with a desired distribution
- HPP with multiple energy markets
- Hybridize
- Reliability
- Sizing optimization under uncertainty
- Surrogate-Based Modeling and Sensitivity Analysis of Future European Electricity Spot Market Prices.
- Enhancing Profits of Hybrid Wind-battery Plants in Spot and Balancing Markets using Data-driven Two-level Optimization.
- Opportunities of Battery Energy Storage in Stand-Alone and Co-Located Hybrid Power Plant in Distribution Grid.
- Synergy of Hydrogen Production in Active Distribution Networks.
- Assessment of Hybrid Power Plant Operation including P2H in Future Energy Markets.
- Profitability of hybrid power plants in European markets.
- Optimal Operation of Hybrid Power Plants: A Case Study of an Operation Park in Sweden.
- Operation of Battery Storage in Hybrid Power Plant in Australian Electricity Market.
- Recommendations for balancing requirements for future North Sea countries towards 2050.
- Impact of Renewable Power and Market Price Forecasts on the Operational Profitability of Hybrid Power Plants.
- Component Sizing of an utility scale hybrid power plant.
- HyDesign: A Tool For Design and Operation of Renewable Hybrid Renewable Plants.
- HyDesign: a tool for sizing optimization for grid-connected hybrid power plants including wind, solar photovoltaic, and Li-ion batteries.
- Energy Management of Hybrid Power Plants in Balancing Market.
- Interfacing Energy Management with Supervisory Control for Hybrid Power Plants.
- Profitability of Hybrid Power Plants in Europe.
- Requirements of Future European Balancing Markets: Insights into Imbalance Volumes and Generation Availability.
- Enhanced Features of Wind based Hybrid Power Plants.
- Modeling the Intra-Hour power system balancing of the Danish Power System for 2020, 2030 & 2050.
- Balancing Challenges for Future North Sea Offshore Network.
- Optimal Participation of Co-Located Wind–Battery Plants in Sequential Electricity Markets.
- The value of sector coupling for the development of offshore power grids.
- Day-ahead market modelling of large-scale highly-renewable multi-energy systems: analysis of the North Sea region towards 2050.
- North Sea region energy system towards 2050: integrated offshore grid and sector coupling drive offshore wind installations.
- Using time series simulation tool for assessing the effects of variable renewable energy generation on power and energy systems.
- Evaluation of Grid-Connected and Off-Grid Operations of Hybrid Power Plant with P2H Integration.
- Electrical Collection System Design Optimization for Hybrid Power Plants.