The present invention provides a pump device comprising a housing and a electrode device. The housing has an inlet and an outlet arranged at a side of the housing for allowing a first flow flowing into the housing. The electrode device is arranged in the housing, and comprises a rotating body having a fluid inlet, a plurality of first flow channels, at least one first electrode and at least one second electrode. The rotating body is driven to rotate thereby generating a negative pressure for drawing the first fluid into the plurality of first flow channels through the fluid inlet such that the first fluid is reacted with the first and second electrodes thereby generating micro bubbles and is exhausted from the plurality of first flow channels. The first flow having micro bubbles are exhausted from the housing through the outlet.

The present invention refers to the field of flue gas purification, which discloses a method and apparatus for capturing carbon dioxide and producing sulfuric acid by sodium bisulfate; using a three-format electrodialysis apparatus to convert the desulfurized by-product NaHSO.sub.4 into H.sub.2SO.sub.4 while capturing CO.sub.2 in the flue gas in the cathode chamber. Under the action of electric field drive and ion exchange membrane, HSO.sub.4.sup.− enters the anode chamber to generate H.sub.2SO.sub.4 and is concentrated, and Na.sup.+ enters the cathode chamber to generate NaOH; the flue gas containing CO.sub.2 to be treated is introduced from the cathode chamber and absorbed by NaOH. The invention provides a simple, green, and economic proceeding method to capture the carbon dioxide in the flue gas during the comprehensive utilization of sodium bisulfate solution, which is of better environmental benefits and improvement of the flue gas treatment technology and reducing the pressure of desulfurization gypsum treatment.

Provided is a synthesis method comprising a first step of producing a carbonate compound from carbon monoxide and an alcohol-based compound at an anode of a first electrochemical cell comprising a cathode and the anode, and a second step of synthesizing a first product by a dealcoholization reaction of the carbonate compound, wherein an alcohol-based compound eliminated in the second step is recycled in the first step.

An apparatus for alkaline water electrolysis including: an electrolysis vessel; first and second gas-liquid separators respectively separating electrolytes and oxygen/hydrogen gas flowing out from anode/cathode chambers; first and second electrolyte tanks respectively storing the electrolytes separated by the first/second gas-liquid separators; oxygen and hydrogen gas feed pipes respectively introducing the separated oxygen/hydrogen gas into gas phase parts of the first/second electrolyte tanks; oxygen and hydrogen gas exhaust pipes respectively allowing oxygen/hydrogen gas to flow out from the gas phase parts of the first/second electrolyte tanks therethrough; and a circulator supplying the electrolytes from the first and second electrolyte tanks to the electrolysis vessel.

An apparatus for alkaline water electrolysis including: an electrolysis vessel; first and second gas-liquid separators respectively separating electrolytes and oxygen/hydrogen gas flowing out from anode/cathode chambers; first and second electrolyte tanks respectively storing the electrolytes separated by the first/second gas-liquid separators; oxygen and hydrogen gas feed pipes respectively introducing the separated oxygen/hydrogen gas into gas phase parts of the first/second electrolyte tanks; oxygen and hydrogen gas exhaust pipes respectively allowing oxygen/hydrogen gas to flow out from the gas phase parts of the first/second electrolyte tanks therethrough; and a circulator supplying the electrolytes from the first and second electrolyte tanks to the electrolysis vessel.

The present invention relates to a photo-electrochemical device for production of a gas, liquid or solid using concentrated electromagnetic irradiation. The device comprises a photovoltaic component configured to generate charge carriers from the concentrated electromagnetic irradiation; and an electrochemical component configured to carry out electrolysis of a reactant. The photovoltaic component contacts the electrochemical component at a solid interface to form an integrated photo-electrochemical device; and further includes at least one reactant channel or a plurality of reactant channels extending between the photovoltaic component and the electrochemical component to transfer heat and the reactant from the photovoltaic component to the electrochemical component. The integrated photo-electrochemical device and auxiliary devices (such as concentrator, flow controllers) build a system which can flexibly react to changes in operating condition and guarantee best performance.

Provided is a system for continuous generation of gases, the system including an electrochemical device and an active- material regeneration device.

Provided is a system for continuous generation of gases, the system including an electrochemical device and an active- material regeneration device.

The invention relates to a process and system for electrolytic production ammonia. The process comprises feeding nitrogen to an electrolytic cell, where it comes in contact with a cathode electrode surface, wherein said surface has a catalyst surface comprising at least one transition metal oxide, the electrolytic cell further comprising a proton donor, and running a current through said electrolytic cell, whereby nitrogen reacts with protons to form ammonia. The process and system of the invention uses an electrochemical cell with a cathode surface having a catalytic surface that is preferably charged with one or more of Rhenium oxide, Tantalum oxide and Niobium oxide.

Provided herein are anode and/or cathode pan assemblies comprising unique manifold, outlet tube, and/or baffle plate configurations; electrochemical cell and/or electrolyzer containing the anode and/or the cathode pan assemblies; and methods to use and manufacture the same.