DE102018008451A1 - Self-controlling process for the production and purchase of control energy using a hydropower plant - Google Patents

Abstract

Process for covering the demand for primarily positive as well as negative control energy in an electronic line network, which automatically maintains the necessary network frequency and works on the principle of a hydropower plant and in particular uses an existing building, in particular a tower-shaped building, for storing water, wherein the building used as a storage for water is connected to a water turbine which is connected to a generator, the cooling towers of decommissioned nuclear power plants in particular being used as buildings.

Description

Self-controlling process for the production and purchase of balancing energy using a hydroelectric power plant, which uses one or more vessels as water storage, taking into account the principle of the communicating vessels, and is particularly characterized by the use of decommissioned nuclear power plants

Claims (9)

Process for covering the demand for primarily positive as well as negative control energy in an electronic line network, which maintains the necessary network frequency in a self-controlling manner and works on the principle of a hydropower plant and in particular uses an existing building, in particular a tower-shaped building, to store water. wherein the building used as a storage for water is connected to a water turbine which is connected to a generator, the cooling towers of decommissioned nuclear power plants in particular being used as buildings. Procedure according to Claim 1 characterized in that the cooling tower is armored to withstand the water pressure or an integrated water tank is installed which can withstand the water pressure. Procedure according to Claim 1 characterized in that the vessels / cooling towers can also be filled according to the principle of the communicating vessels. In this case, the vessels / cooling towers are connected to one another at the bottom by piping, which is connected to a turbine and this is connected to a generator. Procedure according to Claim 1 characterized in that the water supply and disposal preferably takes place to a large extent through the existing pump and piping system of a decommissioned nuclear power plant. Procedure according to Claim 1 characterized in that the non-nuclear plants of a decommissioned nuclear power plant for power production and the infrastructure for feeding into the power grid are preferably used. Procedure according to Claim 1 for the filling of the vessel (s) or the cooling tower (s) and the production of control energy takes place according to the following principle: a. The vessel (s) or cooling tower (s) are filled primarily with negative control energy b. When using only one vessel or several unconnected vessels, the following applies: For electricity production, ie production of positive balancing energy, the water quantity or part of the water quantity is derived directly via a turbine which is connected to a generator. c. When using at least two connected vessels, the following applies: For electricity production, ie the production of positive control energy, the amount of water is transferred from one of the connected vessels to the other vessel via the turbine, which is installed in a pipe system that connects and seals the vessels (e) headed. If there is water in the vessels, one of the connected vessels will continue to be filled. d. "A" to "c" is always recurring. e. When using only one vessel or several non-connected vessels, the following generally applies: Depending on the need for negative and positive control energy, the water is drained from the vessel (s) or the cooling tower (s) or the filling the vessel (s) or the cooling tower (s) are controlled to stabilize the network. f. When using at least two connected vessels, the following generally applies: Depending on the need for negative and positive control energy, the draining of the water from one of the connected vessels or the filling of one of the connected vessels is controlled in a network-stabilizing manner. G. The emergency solution for the production of positive balancing energy is filling the vessel / cooling tower or the vessels / cooling towers with water by using regular electricity (ie non-negative balancing energy) from the network, provided that a defined minimum water level of the vessel / cooling tower or the vessels / cooling towers have been reached. H. The emergency solution for negative control energy is to fill the vessel / cooling tower or the vessels / cooling towers with water by using negative control energy and simultaneously draining the water via an integrated overflow system, provided the defined maximum level of water in the vessel / cooling tower or is reached in the vessels / cooling towers. The procedure after Claim 1 is self-controlling by starting the hydropower plant or a part of it according to the demand for balancing energy when it falls below or exceeds a defined grid frequency and stops when the required grid frequency is reached. The procedure after Claim 1 enables self-regulating network stabilization and further a reduction in the costs of balancing energy, which will be classified nationwide at EUR 4 billion in 2022. The procedure after Claim 1 still enables existing infrastructures from To use nuclear power plants and reduce the dismantling costs of these to a minimum.