Baozt Innovative Energy Solutions
Energy Storage Solutions for
Hot Water
Specializing in molten salt energy storage (thermal storage) and heat conversion for industrial and residential applications.
Energy Cost Savings,Eco-Friendly,Safe
Industrial Applications
Our technology produces hot water with a temperature range of 20 to 100 degrees Celsius, maintaining an accuracy of plus or minus one degree. This precise temperature control is ideal for the following industrial applications:
- Food processing and pasteurization
- Beverage production and sterilization
- Chemical processing and synthesis
- Pharmaceutical manufacturing and sterilization
- Textile dyeing and finishing
- Paper production and pulp treatment
- Metal cleaning and surface treatment
- Plastic molding and extrusion processes
- Industrial laundry and cleaning services
- Heating and cooling in construction industry
This level of thermal precision ensures optimal performance and quality in various industrial processes.
Products
Hot Water
Explore our innovative molten salt energy storage and heat conversion solutions.
Industrial Heating
Here are key advantages of using molten salt thermal energy storage to convert low-cost electricity into heat and generate steam and hot air for industrial needs, presented in English with supporting technical insights:---
1. High Energy Storage Density
Molten salt has a high volumetric heat capacity, enabling large-scale energy storage with compact systems. Its thermal energy density is significantly higher than water or other liquid storage media, making it ideal for industrial-scale applications.
2. Cost-Effective Energy Utilization
By storing low-cost off-peak electricity (e.g., nighttime or renewable surplus) as heat, industries can reduce energy expenses by up to 50% compared to gas-fired boilers. For example, a Beijing steam supply project achieved a 50% cost reduction versus natural gas.
3. Long-Duration Storage (10+ Hours)
Molten salt systems can store heat for over 10 hours daily, ensuring stable steam supply during peak demand periods. This flexibility supports 24/7 industrial operations without interruptions.
4. High-Temperature Steam Output
Molten salt operates at temperatures exceeding 500°C, matching industrial steam requirements (e.g., 1.6MPa, 250°C in textile plants). This ensures compatibility with high-pressure steam turbines and industrial processes.
5. Long Lifespan & Low Maintenance
Molten salt systems have a lifespan of 30+ years with minimal degradation, outperforming electrochemical batteries. Their non-corrosive formulations and stable thermal properties reduce long-term operational costs.
6. Grid Stability & Peak Shaving
By shifting energy use to off-peak periods, molten salt storage reduces grid stress during peak hours. This supports renewable integration and qualifies for grid ancillary services (e.g., frequency regulation).
7. Environmental Sustainability
Replacing fossil fuel-based boilers with molten salt systems cuts CO₂ emissions by ~24,000
8. Flexible Integration with Renewables
Molten salt systems can store surplus solar/wind energy, ensuring continuous steam supply even during renewable intermittency. This is critical for zero-carbon industrial parks, as demonstrated in
9. High Efficiency (Up to 96.3%)
Energy conversion efficiency exceeds 96% in operational projects (e.g., Beijing’s heating system), minimizing losses during heat storage and steam generation.
10. Multi-Scenario Adaptability
Beyond steam supply, molten salt supports combined heat and power (CHP), waste heat recovery, and hybrid energy systems. Its modular design allows scalability for diverse industrial needs.
---
Case Highlights
- Beijing Xizhimen Steam Project: Reduced steam costs to 105 RMB/ton (50% lower than gas).
- Zhejiang Textile Park: Achieved 25MW peak power output and 8,400 annual operating hours using molten salt.
- Jiangsu Power Plant Retrofit: Enabled 75MWh heat storage, saving 100,000 tons of coal annually.
