Bussiness Ideas
Solution 1: Advanced Zinc Bromide Flow Battery for Energy Storage Technology Overview
We are developing a next-generation flow battery based on zinc-bromide (Zn-Br) chemistry, designed to store and discharge energy efficiently. Unlike conventional lithium-ion batteries, which rely on solid electrodes, flow batteries store energy in liquid electrolyte solutions. This allows for scalable and flexible energy storage solutions with long cycle and durability. It can be scaled from small to large scale deployment from kW to MW application. Helps stabilize grids with intermittent power sources. This technology has better safety and comes with low maintenance. Ease of Deployment with modular design allows for quick installation and expansion. No rare or conflict minerals (unlike cobalt in lithium-ion batteries), reducing supply chain risks. Potential Applications are renewable Energy Smoothing – Stores solar/wind energy for use during cloudy or low-wind periods. Microgrids & Off-Grid Power – Provides stable electricity in remote areas. Industrial Backup Power – Replaces diesel generators for emergency power.
Solution 2: Renewable-Powered Hydrogen Compression & Storage System
We have developed an innovative method to compress and store hydrogen efficiently using renewable energy sources (solar/wind/water). The system utilizes multi-stage compression to fill hydrogen storage tanks at varying pressures (10 MPa to 70 MPa), categorized into Type 1 to Type 4 tanks, optimizing energy use during the filling process. Multi-Stage Compression for Efficiency such as Type 1 (10 MPa) – Low-pressure storage for short-distance transport. Type 2 (20 MPa) – Lightweight composite-wrapped tanks for medium pressure. Type 3 (30 MPa) – Partial composite tanks for higher energy density. Type 4 (70 MPa) – Full composite tanks for maximum storage (e.g., fuel cell vehicles). Traditional hydrogen compression consumes significant electricity; our method optimizes pressure staging to reduce energy waste by 5%.
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