Neutralization Energy Storage Solution Simulator 1.0 officially released

Classification:Company News

 - Author:Dr. Xie

 - Release time:Nov-21-2022

【 Summary 】With the increasing variety of energy storage technologies and the increasing complexity of energy storage application scenarios, a single energy storage technology is gradually unable to meet the low

Neutralization Energy Storage Calculator NeLCOS ®: Energy Storage Solution Simulator 1.0 Link
https://nelcos.z-henergy.com/SaaS/

With the increasing variety of energy storage technologies and the increasing complexity of energy storage application scenarios, a single energy storage technology is gradually unable to meet the low-cost requirements of complex scenarios. Therefore, ZH Energy Storage has launched this energy storage solution simulator, aiming to calculate how to match different types of energy storage products in specific energy storage application scenarios, in order to maximize the advantages of different energy storage products and minimize the cost of energy storage.

The simulator can handle common scenarios such as factories, office buildings, industrial parks, wind and solar power plants, etc,
1. In the case of only mains power supply, it is desired to allocate energy storage for peak valley arbitrage;
2. Alternatively, in the case of simultaneous supply of urban electricity and wind and solar power, it is desirable to allocate energy storage to reduce the cost of urban electricity;
3. Alternatively, in the absence of electricity from the grid, it is hoped that the 24-hour electricity demand can be met through wind and solar power generation and energy storage.

Instructions for use:

1. Default value: The simulator has a built-in preset scene for users to refer to. This preset scenario is a remote residential area that is off the grid and has no electricity. The plan is to meet 24-hour uninterrupted electricity demand through photovoltaic and energy storage.

2. Energy Storage Product Table: Provide information on the intended energy storage products to be used, including product type, optimal rated discharge duration, and full life electricity cost under that duration. Three electrochemical energy storage technologies were selected in the preset scenario, and their preferred discharge duration was selected. Technologies with longer advantageous discharge durations typically provide lower full life electricity costs.

3. Minimum variation amplitude of energy storage power: For the power calculation of energy storage products, you want the minimum variation accuracy to be the amount of kW that is increased or decreased each time.

4. Power generation/consumption: Provide hourly power generation and consumption data within 0-24 hours per day for the simulator to calculate surplus power generation and electricity consumption gap.

5. Calculation: Click the last calculation button and use your phone number to obtain a verification code, which can keep the system used multiple times without closing the browser.


Result analysis:

1. Numerical results: The simulator will output the results of energy storage products in order of discharge duration from short to long. The energy storage products ranked first will strictly calculate their power according to the set discharge duration, while the longest energy storage product will extend or shorten the discharge duration according to actual needs to meet the overall energy storage demand, as it is usually the product with the lowest total life cycle electricity cost.

2. Graphical results: Display the configured power of each energy storage product and their discharge time interval in different colors, and the color blocks displayed in the negative power interval represent the situation of charging the battery when there is surplus power generation.


This simulator provides a relatively basic solution plan. If you have any problems or suggestions during use, or would like more detailed solution assistance, please scan the enterprise WeChat account below to contact us. At the same time, we will continue to enhance the functionality of the simulator and provide more detailed configuration results such as electricity cost and installation cost in the future.


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