JP5357467B2 - Water electrolysis apparatus activation method, water electrolysis apparatus activation apparatus, and water electrolysis apparatus including the same - Google Patents

Water electrolysis apparatus activation method, water electrolysis apparatus activation apparatus, and water electrolysis apparatus including the same Download PDF

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JP5357467B2
JP5357467B2 JP2008227373A JP2008227373A JP5357467B2 JP 5357467 B2 JP5357467 B2 JP 5357467B2 JP 2008227373 A JP2008227373 A JP 2008227373A JP 2008227373 A JP2008227373 A JP 2008227373A JP 5357467 B2 JP5357467 B2 JP 5357467B2
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靖崇 浦下
健一郎 小阪
憲弘 福田
彰博 坂西
茂 弦巻
克明 井上
秀昭 橋本
康 森
由則 小林
弘一 武信
隆 栗崎
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Mitsubishi Heavy Industries Ltd
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Description

本発明は、水電解装置の起動方法、水電解装置を定格運転条件まで起動させるための起動装置及びこれを備える水電解装置に関する。   The present invention relates to a method for starting a water electrolysis apparatus, an activation apparatus for starting the water electrolysis apparatus to a rated operating condition, and a water electrolysis apparatus including the same.

水電解装置は、一般に、固体高分子電解質膜を備え、循環水を電気分解して水素ガスと酸素ガスを発生する水電解スタックと、循環水を貯蔵するための容器と、水電解スタックに循環水を供給する水供給管と、水電解スタックで発生した酸素ガス及び水素ガスを、それぞれ循環水と共に容器に送給する送給管と、容器から水素ガス及び酸素ガスを排出する排出部と、起動時に循環水を加熱するための加熱手段と、起動時に循環水内に窒素ガスを供給する窒素ガス供給手段とを備える。   A water electrolysis apparatus generally includes a solid polymer electrolyte membrane, electrolyzes circulating water to generate hydrogen gas and oxygen gas, a container for storing the circulating water, and circulates in the water electrolysis stack. A water supply pipe for supplying water, a supply pipe for supplying oxygen gas and hydrogen gas generated in the water electrolysis stack to the container together with circulating water, and a discharge section for discharging hydrogen gas and oxygen gas from the container, Heating means for heating the circulating water at the start-up and nitrogen gas supply means for supplying nitrogen gas into the circulating water at the start-up.

水電解装置を運転する際、循環水の温度が低い状態で定格電流を流すと、温度が低い条件ではスタック抵抗が高いために、水電解スタックにおける電圧(スタック電圧)が急激に上昇し、水電解スタックに異常が発生する可能性がある。また、スタックでの発熱量が大きくなり、急激な温度変化によっても水電解スタックに異常が発生する可能性がある。そのため、水電解装置は、通常、水電解装置内の水を循環させながら、水を80℃程度に昇温させた後、水電解スタックに電流を印加して定格運転される。   When operating the water electrolyzer, if the rated current is passed while the circulating water temperature is low, the stack resistance is high under the low temperature condition, so the voltage in the water electrolysis stack (stack voltage) rises rapidly, An abnormality may occur in the electrolytic stack. In addition, the amount of heat generated in the stack increases, and an abnormality may occur in the water electrolysis stack due to a sudden temperature change. For this reason, the water electrolysis apparatus is normally operated at a rated operation by increasing the temperature of the water to about 80 ° C. while circulating the water in the water electrolysis apparatus and then applying a current to the water electrolysis stack.

従来は、水電解装置を起動させる際に、水電解装置外部に設置された窒素ガス供給手段から、窒素ガスを送給管内に供給して流通させることによって自然循環を発生させ、加熱手段を用いて循環水を定格運転温度まで昇温させていた。   Conventionally, when starting a water electrolysis apparatus, a natural circulation is generated by supplying nitrogen gas into a feed pipe from a nitrogen gas supply means installed outside the water electrolysis apparatus, and a heating means is used. The circulating water was raised to the rated operating temperature.

特許文献1には、水素ガス及び酸素ガスが除去された水が流通する下降管(水供給管)と水電解槽(水電解スタック)との間に、温媒と冷媒を選択して流通させることが可能な熱交換器を設置した水電解装置が開示されている。特許文献1の水電解装置において、起動時に、酸素用の上昇管(送給管)に酸素を供給して水を自然循環させ、熱交換器に温媒を供給して、循環水を昇温させる。循環水の温度が規定値以上に上昇した後、上昇管への酸素の供給と熱交換器への温媒の供給とを停止し、水電解装置を定格運転させる。
特許第2639457号公報
In Patent Document 1, a heating medium and a refrigerant are selectively circulated between a downcomer pipe (water supply pipe) through which water from which hydrogen gas and oxygen gas have been removed circulates and a water electrolysis tank (water electrolysis stack). A water electrolysis apparatus provided with a heat exchanger capable of performing the above is disclosed. In the water electrolysis apparatus of Patent Document 1, when starting up, oxygen is supplied to an oxygen rising pipe (feed pipe) to naturally circulate water, and a heat medium is supplied to a heat exchanger to raise the temperature of the circulating water. Let After the temperature of the circulating water rises above the specified value, the supply of oxygen to the riser and the supply of the heating medium to the heat exchanger are stopped, and the water electrolysis device is rated.
Japanese Patent No. 2639457

例えば水電解装置と燃料電池とを組み合わせた電力貯蔵装置など、水電解装置の運転と停止とが繰り返される場合、水電解装置を一旦停止させると、水の循環が停止するとともに、装置内の水の温度も低下する。窒素ガス供給とヒータ加熱とを行う起動方法では、水電解装置の起動の度に窒素ガスが水電解装置内に供給されるので、発生した水素ガス及び酸素ガスの純度が低下する。高純度の水素ガス及び酸素ガスを貯蔵するためには、定格運転後の一定時間に、発生ガスによる系統置換を実施する必要があり、電解効率が低下するという問題があった。また、起動時に加熱手段を運転するための電力が必要であり、エネルギー効率が低下するという問題があった。   For example, when the operation and stop of the water electrolysis device are repeated, such as a power storage device combining a water electrolysis device and a fuel cell, once the water electrolysis device is stopped, the water circulation is stopped and the water in the device The temperature of the also decreases. In the start-up method in which the nitrogen gas is supplied and the heater is heated, nitrogen gas is supplied into the water electrolyzer every time the water electrolyzer is started, so that the purity of the generated hydrogen gas and oxygen gas is lowered. In order to store high-purity hydrogen gas and oxygen gas, it is necessary to perform system replacement with the generated gas for a certain time after the rated operation, and there is a problem in that the electrolytic efficiency is lowered. Moreover, the electric power for operating a heating means is required at the time of starting, and there existed a problem that energy efficiency fell.

特許文献1の水電解装置では、酸素用上昇管に酸素を供給して自然循環を発生させることにより、水素ガス及び酸素ガスの純度低下と電解効率の低下を防止することができる。しかし、起動時に循環水を定格運転条件まで昇温可能な温度に設定された温媒を熱交換器に流す必要があるため、エネルギー効率が低いことが問題となっていた。   In the water electrolysis apparatus of Patent Document 1, by supplying oxygen to the oxygen riser and generating natural circulation, it is possible to prevent a decrease in purity of hydrogen gas and oxygen gas and a decrease in electrolysis efficiency. However, since it is necessary to flow the heating medium set to a temperature at which the circulating water can be heated up to the rated operating condition at the time of startup, the energy efficiency is low.

本発明は、高純度の水素ガス及び酸素ガスを高効率で得ることができる水電解装置の起動方法及び水電解装置の起動装置、及び、該起動装置を備える水電解装置を提供する。   The present invention provides a method for starting a water electrolysis apparatus, a starter for a water electrolysis apparatus, and a water electrolysis apparatus including the starter that can obtain highly pure hydrogen gas and oxygen gas with high efficiency.

上記課題を解決するために、本発明は、水電解スタックに流れる電流値を検出するステップと、該検出された電流値が定格電流値よりも小さい場合、水電解スタックの電圧値を予め設定された電圧上限値未満として、前記水電解スタックに流れる電流を、定格電流値まで増加させるステップと、前記水電解スタックの電圧値が前記上限値以上である場合に、前記水電解スタックに流れる電流を維持させるステップとを含む水電解装置の起動方法を提供する。   In order to solve the above-described problems, the present invention includes a step of detecting a current value flowing through the water electrolysis stack, and a voltage value of the water electrolysis stack is preset when the detected current value is smaller than a rated current value. Less than the upper limit voltage, the step of increasing the current flowing through the water electrolysis stack to a rated current value, and the current flowing through the water electrolysis stack when the voltage value of the water electrolysis stack is greater than or equal to the upper limit value. And a method for starting the water electrolysis apparatus.

本発明の水電解装置の起動方法は、スタック電圧の上限値を設定し、スタック電圧と水電解スタックに流れる電流とを監視しながら、電流を定格電流値まで段階的に上昇させる方法である。本発明は、スタック電圧が急激に上昇して水電解スタックに異常が発生することを防止して、低温時からの水電解を実施する。これにより、発生ガスによって装置内の水を自然循環させるとともに、水電解で発生するジュール熱で循環水を加熱するため、水電解装置を、定格運転可能な循環水温度及び定格電流値まで、自動的に起動させることができる。すなわち、水の循環を発生させるための窒素ガス供給及び循環水の加熱が不要となり、高純度の水素ガス及び酸素ガスを高効率で得ることができ、エネルギー効率を向上させることができる。   The start-up method of the water electrolysis apparatus of the present invention is a method of setting the upper limit value of the stack voltage and gradually increasing the current to the rated current value while monitoring the stack voltage and the current flowing through the water electrolysis stack. The present invention prevents the occurrence of an abnormality in the water electrolysis stack due to a rapid rise in the stack voltage, and performs water electrolysis from a low temperature. As a result, the water in the device is naturally circulated by the generated gas and the circulating water is heated by Joule heat generated by water electrolysis. Can be activated automatically. That is, it is not necessary to supply nitrogen gas and circulate water for generating water circulation, so that high-purity hydrogen gas and oxygen gas can be obtained with high efficiency, and energy efficiency can be improved.

本発明は、水電解スタックに流れる電流値を計測し、該計測された電流値を定格電流値と比較する電流検出手段と、水電解スタックの電圧値を計測し、該計測された電圧値を設定された電圧上限値と比較するスタック電圧検出手段とを備え、前記計測された電圧を前記上限値未満として、前記定格電流値まで前記水電解スタックに電流を印加する水電解装置の起動装置を提供する。また、上記起動装置を備える水電解装置を提供する。   The present invention measures the current value flowing through the water electrolysis stack, compares the measured current value with the rated current value, measures the voltage value of the water electrolysis stack, and determines the measured voltage value. A stack voltage detecting means for comparing with a set voltage upper limit value, and setting the measured voltage as less than the upper limit value, and a water electrolyzer starting device for applying a current to the water electrolysis stack up to the rated current value provide. Moreover, a water electrolysis apparatus provided with the said starting device is provided.

本発明の起動装置を用いれば、スタック電圧の急激な上昇による水電解スタックの異常発生を防止しながら、低温時から水電解を実施して、発生した酸素ガス及び水素ガスにより水を自然循環させるとともに、起動過程で電解により発生するジュール熱を用いて循環水の温度を上昇させることができる。従って、本発明の水電解装置は、窒素ガス供給手段や循環水の加熱手段が不要となるため、水電解装置を簡略化することができる。また、高純度の水素ガス及び酸素ガスを高効率で生産することが可能である。   If the starter of the present invention is used, water electrolysis is performed from a low temperature while water is electrocirculated from the generated oxygen gas and hydrogen gas while preventing the occurrence of abnormalities in the water electrolysis stack due to a sudden rise in stack voltage. At the same time, the temperature of the circulating water can be raised using Joule heat generated by electrolysis in the starting process. Therefore, the water electrolysis apparatus of the present invention can simplify the water electrolysis apparatus because the nitrogen gas supply means and the circulating water heating means are unnecessary. Moreover, it is possible to produce highly pure hydrogen gas and oxygen gas with high efficiency.

本発明の水電解装置の起動方法及び起動装置を用いれば、低温時からスタック電圧の急激な上昇を防止して水電解を実施することが可能であるため、発生ガスによって装置内の水を循環させつつ、水電解時のジュール熱を利用して循環水を昇温させ、自動的に定格運転可能な循環水温度及び定格電流値に到達させることができる。本発明によれば、起動用の窒素ガス供給、及び、加熱手段による循環水の加熱が不要となるため、水電解装置を簡略化することができ、高いエネルギー効率及び電解効率で、高純度の水素ガス及び酸素ガスを生産することが可能となる。本発明の水電解装置は、特に、運転と停止とが繰り返される電力貯蔵装置に適用した場合に有利である。   By using the water electrolysis apparatus start-up method and start-up apparatus of the present invention, it is possible to perform water electrolysis while preventing a rapid increase in stack voltage from a low temperature, so the water in the apparatus is circulated by the generated gas. The circulating water temperature can be raised using Joule heat at the time of water electrolysis, and the circulating water temperature and the rated current value at which rated operation can be performed automatically can be reached. According to the present invention, it is not necessary to supply nitrogen gas for starting and heating the circulating water by the heating means, so that the water electrolysis apparatus can be simplified, and high purity with high energy efficiency and electrolysis efficiency. It becomes possible to produce hydrogen gas and oxygen gas. The water electrolysis apparatus of the present invention is particularly advantageous when applied to a power storage apparatus that is repeatedly operated and stopped.

以下に、本発明に係る水電解装置の起動方法の実施形態を説明する。
本実施形態の水電解装置は、水電解スタックと、水電解装置を起動させるための起動装置と、循環水を貯蔵するための容器と、水電解スタックに循環水を供給する水供給管と、水電解スタックで発生した酸素ガス及び水素ガスを、それぞれ循環水と共に容器に送給する送給管と、容器から水素ガス及び酸素ガスを排出する排出部とを備える。起動装置は、例えばコンピュータを備える。なお、本実施形態の水電解装置には、ヒータやボイラなどの、起動時に循環水を定格運転条件まで加熱するため加熱手段、及び、ボンベなどの窒素ガス供給手段は設置されない。
Below, embodiment of the starting method of the water electrolysis apparatus concerning the present invention is described.
The water electrolysis apparatus of the present embodiment includes a water electrolysis stack, an activation apparatus for activating the water electrolysis apparatus, a container for storing circulating water, a water supply pipe for supplying circulating water to the water electrolysis stack, A supply pipe that supplies oxygen gas and hydrogen gas generated in the water electrolysis stack to the container together with the circulating water, and a discharge unit that discharges the hydrogen gas and oxygen gas from the container. The activation device includes a computer, for example. Note that the water electrolysis apparatus of the present embodiment is not provided with a heating means and a nitrogen gas supply means such as a cylinder for heating the circulating water to the rated operating condition at the time of startup, such as a heater and a boiler.

次に、本実施形態の水電解装置を起動する方法を、図1を参照して説明する。図1は、本実施形態の起動装置の動作を示したフローチャートである。   Next, a method for starting the water electrolysis apparatus of the present embodiment will be described with reference to FIG. FIG. 1 is a flowchart showing the operation of the activation device of the present embodiment.

起動前の水電解装置は、装置内の水温が例えば室温であるなど、定格運転条件の循環水温度(80℃から100℃程度)よりも低温であり、装置内の水の循環がない状態とされる。まず、起動装置は、電流検出手段において、水電解スタックに流れる電流値Irealを計測し、Irealを定格運転条件の電流値(定格電流値)Iratedと比較する(ステップS0)。 The water electrolyzer before start-up is at a temperature lower than the circulating water temperature (about 80 ° C to 100 ° C) under rated operating conditions, for example, the water temperature in the device is room temperature, and there is no water circulation in the device. Is done. First, activation device, the current detecting unit measures a current value I real flowing water electrolysis stack and the current value of the rated operation conditions I real (rated current) is compared with I rated (step S0).

realがIratedよりも小さい(Ireal<Irated)場合、水電解スタックに接続される電源を用いて水電解スタックに電流を印加し、水電解スタックに流れる電流値を増加させる(ステップS1)。このとき、水電解スタックに印加される電流値は、Iratedよりも小さい値とされ、上限値を越える急激なスタック電圧の上昇を発生させず、かつ、起動に長時間を要しない程度の値に適宜設定される。 I real is smaller than I rated (I real <I rated ) case, a power supply connected to the water electrolysis stack current is applied to the water electrolysis stack, increases the value of the current flowing through the water electrolysis stack (step S1 ). At this time, the value of the current applied to the water electrolysis stack is a value smaller than I rated , a value that does not cause a rapid increase in stack voltage exceeding the upper limit and does not require a long time for startup. Is set as appropriate.

起動装置は、スタック電圧検出手段において、スタック電圧Vrealを計測し、Vrealを、スタック電圧の上限値Vlimitと比較する(ステップS2)。 Activation device, the stack voltage detector measures a stack voltage V real, the V real, compared with the upper limit value V limit of the stack voltage (step S2).

realがVlimitよりも低い場合、起動装置は、電流検出手段において、水電解スタックに流れる電流値Irealを計測し、Irealを定格電流値Iratedと比較する(ステップS0)。IrealがIratedよりも小さい場合、電源が水電解スタックに電流を印加し、水電解スタックに流れる電流を増加させる(ステップS1)。以降、Vreal=Vlimitになるまで、あるいは、Ireal≧Iratedになるまで、ステップS0〜S2が繰り返される。Ireal≧Iratedとなった場合、水電解装置の起動が終了する。 If V real is lower than V limit, activation device, the current detecting unit measures a current value I real flowing water electrolysis stack, compared with the rated current value I rated the I real (step S0). If I real is less than I rated, power current is applied to the water electrolysis stack, increasing the current flowing through the water electrolysis stack (step S1). Thereafter, until V real = V limit, or until I realI rated, step S0~S2 are repeated. When IrealIrated , the activation of the water electrolysis device is completed.

real=Vlimitとなった場合、水電解スタックに流れる電流値が維持される(ステップS3)。 When Vreal = Vlimit , the value of the current flowing through the water electrolysis stack is maintained (step S3).

本実施形態において、水電解スタックに電流を印加することによって、定格運転条件以下の温度でも、水の電気分解が開始され、水素ガス及び酸素ガスが発生する。発生したガスは、循環水とともに、各送給管を通って容器内に流入する。送給管内の発生ガスと循環水との混合物の密度は、水供給管内の循環水の密度よりも小さいため、自然循環が発生して、純水の循環が開始される。また、電解によって生じるジュール熱により、循環水が過熱される。   In this embodiment, by applying a current to the water electrolysis stack, electrolysis of water is started even at a temperature below the rated operating condition, and hydrogen gas and oxygen gas are generated. The generated gas flows into the container through each supply pipe together with the circulating water. Since the density of the mixture of the generated gas and the circulating water in the feed pipe is smaller than the density of the circulating water in the water supply pipe, natural circulation occurs and pure water circulation is started. Moreover, circulating water is overheated by Joule heat generated by electrolysis.

循環水が昇温するとともに、循環水によって水電解スタックが昇温する。水電解スタックの温度上昇に伴い、スタック電圧Vrealが低下する。起動装置は、スタック電圧検出手段において、Vrealを計測し、上限値Vlimitと比較する(ステップS4)。Vreal=Vlimitである場合、電流が維持される(ステップS3)。以降、Vreal<Vlimitとなるまで、ステップS3〜S4が繰り返される。すなわち、計測されるスタック電圧が上限値よりも小さくなるまで、電流の維持とスタック電圧値及び水電解スタックを流れる電流値の監視が繰り返される。 As the circulating water is heated, the water electrolysis stack is heated by the circulating water. As the temperature of the water electrolysis stack rises, the stack voltage Vreal decreases. The starting device measures V real in the stack voltage detecting means and compares it with the upper limit value V limit (step S4). If V real = V limit , the current is maintained (step S3). Thereafter, until V real <V limit, step S3~S4 are repeated. That is, until the measured stack voltage becomes smaller than the upper limit value, the maintenance of the current and the monitoring of the stack voltage value and the current value flowing through the water electrolysis stack are repeated.

real<Vlimitとなった場合、起動装置は、電流検出手段において、水電解スタックに流れる電流値Irealを計測し、Irealを定格電流値Iratedと比較する(ステップS0)。Ireal<Iratedの場合、上記のステップS0〜S4が繰り返される。Ireal≧Iratedの場合、水電解装置の起動が終了する。 When V real <V limit is established, the activation device measures the current value I real flowing through the water electrolysis stack in the current detection means, and compares I real with the rated current value I rated (step S0). For I real <I rated, the above steps S0~S4 are repeated. When IrealIrated , the activation of the water electrolysis device is completed.

以上のように、本実施形態の水電解装置の起動方法及び起動装置は、スタック電圧及び水電解装置に流れる電流を管理しながら水電解装置に電流を印加して、低温時から水電解を実施することにより、発生したガスにより装置内の水の自然循環を発生させ、水電解時のジュール熱を利用して循環水を定格運転温度まで加熱させる。これにより、低温時におけるスタック電圧の急激な上昇を防止しながら、定格電流値に到達させることができる。
このように、起動時の窒素ガス供給や加熱手段による循環水の加熱が不要であるため、エネルギー効率が向上する。また、高純度の水素ガス及び酸素ガスを高効率で生産できる。さらに、窒素ガス供給手段や加熱手段が不要となるため、装置を簡略化することができる。
As described above, the water electrolysis apparatus start-up method and start-up apparatus of the present embodiment performs water electrolysis from a low temperature by applying current to the water electrolysis apparatus while managing the stack voltage and the current flowing through the water electrolysis apparatus. By doing so, natural circulation of the water in the apparatus is generated by the generated gas, and the circulating water is heated to the rated operating temperature using Joule heat during water electrolysis. As a result, the rated current value can be reached while preventing a rapid increase in the stack voltage at low temperatures.
Thus, energy efficiency is improved because it is not necessary to supply nitrogen gas at the time of startup or to heat the circulating water by the heating means. Moreover, high purity hydrogen gas and oxygen gas can be produced with high efficiency. Furthermore, since the nitrogen gas supply means and the heating means become unnecessary, the apparatus can be simplified.

本発明の起動装置の動作を示したフローチャートである。It is the flowchart which showed operation | movement of the starting device of this invention.

Claims (3)

水電解装置の定格運転を行う前に前記水電解装置を起動させる水電解装置の起動方法であって、
水電解スタックに流れる電流値を検出するステップと、
該検出された電流値が定格電流値よりも小さい場合、水電解スタックの電圧値を予め設定された電圧上限値未満として、前記水電解スタックに流れる電流を、定格電流値まで増加させるステップと、
前記水電解スタックの電圧値が前記上限値と等しい場合に、前記水電解スタックに流れる電流を維持させるステップと
前記スタックに流れる電流が定格電流値以上になった場合に、水電解装置の起動が停止されるステップを含み、
4つの前記ステップにより、定格運転条件まで水を加熱する水電解装置の起動方法。
A method for starting a water electrolysis apparatus for starting the water electrolysis apparatus before performing a rated operation of the water electrolysis apparatus,
Detecting a current value flowing through the water electrolysis stack;
When the detected current value is smaller than the rated current value, setting the voltage value of the water electrolysis stack to less than a preset voltage upper limit value, and increasing the current flowing through the water electrolysis stack to the rated current value;
Maintaining the current flowing in the water electrolysis stack when the voltage value of the water electrolysis stack is equal to the upper limit ;
When the current flowing in the stack is equal to or greater than the rated current value, look including the step of activation of the water electrolysis apparatus is stopped,
A method of starting a water electrolysis apparatus that heats water to a rated operating condition by the four steps .
水電解装置の定格運転を行う前に前記水電解装置を起動させるための起動装置であって、
水電解スタックに流れる電流値を計測し、該計測された電流値を定格電流値と比較する電流検出手段と、
水電解スタックの電圧値を計測し、該計測された電圧値を設定された電圧上限値と比較するスタック電圧検出手段とを備え、
前記スタック電圧検出手段が比較した結果、前記計測された電圧前記上限値未満であり、前記電流検出手段が比較した結果、前記計測された電流値が定格電流値よりも小さい場合に前記水スタックに接続された電源により、前記定格電流値まで前記水電解スタックに電流を印加させる水電解装置の起動装置。
An activation device for activating the water electrolysis device before performing the rated operation of the water electrolysis device,
A current detection means for measuring a current value flowing through the water electrolysis stack, and comparing the measured current value with a rated current value;
Stack voltage detection means for measuring the voltage value of the water electrolysis stack and comparing the measured voltage value with a set voltage upper limit value,
When the measured voltage is less than the upper limit value as a result of comparison by the stack voltage detection means and the measured current value is smaller than a rated current value as a result of comparison by the current detection means , the water A starter for a water electrolysis apparatus that applies a current to the water electrolysis stack up to the rated current value by a power source connected to the stack .
請求項2に記載の起動装置を備える水電解装置。
A water electrolysis device provided with the starting device according to claim 2.
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