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冬季溫室由于密閉性的要求會(huì)出現(xiàn)缺碳的現(xiàn)象。通過(guò)捕集空氣中的二氧 化碳輸送至溫室大棚中，可有效提高溫室大棚的產(chǎn)量。德潤(rùn)晨已于2020年在山東、北京等地設(shè)置了20余處農(nóng)業(yè)用空氣直捕二氧化碳技術(shù)驗(yàn)證基地。德潤(rùn)晨實(shí)現(xiàn)的智慧農(nóng)業(yè)主要是指農(nóng)業(yè)大棚的智慧生產(chǎn)，主要技術(shù)手段是對(duì)大棚內(nèi)的空氣濕溫度度，土壤濕溫度、光照強(qiáng)度、二氧化碳濃度實(shí)行全面監(jiān)測(cè)，并自動(dòng)調(diào)整。 Due to the requirement of airtightness, winter greenhouses may experience carbon deficiency. By capturing carbon dioxide from the air and transporting it to greenhouse, the yield of greenhouse can be effectively increased. DERUNCHEN has set up more than 20 agricultural air direct capture carbon dioxide technology validation bases in Shandong, Beijing and other places in 2020. The smart agriculture realized by DERUNCHEN mainly refers to the smart production of agricultural greenhouses. The main technical means are to comprehensively monitor and automatically adjust the air humidity temperature, soil humidity temperature, light intensity, and carbon dioxide concentration inside the greenhouses.

雙碳背景下，空氣直捕對(duì)于碳中和是終極手段，任意地點(diǎn)，任何時(shí)間都可以為地球大氣降低CO2濃度做貢獻(xiàn)。德潤(rùn)晨碳捕集技術(shù)可利用光能、風(fēng)能等新能源實(shí)現(xiàn)隨時(shí)隨地的空氣碳捕集。而乙醇胺法由于反應(yīng)動(dòng)力學(xué)的問(wèn)題，無(wú)法實(shí)現(xiàn)空氣碳捕集。 In the context of double carbon, direct air capture is the ultimate means for carbon neutrality, which can contribute to reducing CO2 concentration in the earth's atmosphere at any place and any time. Derunchen carbon capture technology can use new energy such as light energy and wind energy to achieve air carbon capture anytime and anywhere. However, due to the problem of reaction kinetics, ethanolamine method cannot achieve air carbon capture.

德潤(rùn)晨利用高速提升加循環(huán)流化床設(shè)備建立了一套完整的工業(yè)碳捕集技術(shù)方案?？蛇B續(xù)、大規(guī)模、低能耗、高效率的捕集工業(yè)煙道氣中的二氧化碳，并能進(jìn)行后續(xù)液化處理。通過(guò)工藝與材料的創(chuàng)新，德潤(rùn)晨規(guī)避現(xiàn)有乙醇胺工業(yè)煙道氣捕集技術(shù)高能耗的問(wèn)題。 DERUNCHEN has established a complete industrial carbon capture technology scheme with high-speed lifting and circulating fluidized bed equipment. It can capture carbon dioxide in industrial flue gas continuously, on a large scale, with low energy consumption and high efficiency, and can carry out subsequent liquefaction treatment. Through the innovation of technology and materials, DERUNCHEN avoids the problem of high energy consumption in existing ethanolamine industrial flue gas capture technologies.

傳統(tǒng)潛艇多用 MEA（一乙醇胺）控制乘員艙 CO2 濃度，但 MEA法體積大、效率低，且至多控制 CO2 濃度在 0.5%。為此，德、印等國(guó)均已研制出利用固態(tài)胺固體材料控制 CO2 濃度的潛艇設(shè)備。德潤(rùn)晨二氧化碳吸附材料可以在 0.04%的二氧化碳分壓下對(duì)二氧化碳進(jìn)行有效去除。 Conventional submarines use MEA (monoethanolamine) to control the CO2 concentration in the crew cabin, but MEA method is large and inefficient, and the maximum CO2 concentration is controlled at 0.5%. For this reason, Germany, India and other countries have developed submarine equipment that uses solid amine materials to control CO2 concentration. DERUNCHEN? carbon dioxide adsorption material can effectively remove carbon dioxide at a partial pressure of 0.04%.

CO2 驅(qū)油技術(shù)是當(dāng)前采用最為廣泛的驅(qū)油技術(shù)，與其他驅(qū)油技術(shù)相比，該技術(shù)具有適 用范圍大、驅(qū)油成本低、采收率高等優(yōu)點(diǎn)。利用德潤(rùn)晨二氧化碳吸附材料可在采油井口吸附逸出的二氧化碳，并重新打入采油層，實(shí)現(xiàn)二氧化碳采油與封存有效的結(jié)合。 CO2 oil recovery technology is currently the most widely used oil recovery technology. Compared with other oil recovery technologies, this technology has the advantages of wide applicability, low oil recovery cost, and high recovery rate. DERUNCHEN? carbon dioxide adsorption material can be used to adsorb the escaping CO2 at the oil production wellhead and re-drive into the oil production layer to realize the effective combination of CO2 oil recovery and storage.

加拿大Carbon Engineering公司的研究指出：每100萬(wàn)噸二氧化碳可制成1.14億升燃料。2017年該公司就開(kāi)始運(yùn)營(yíng)CO2燃料化事宜，并計(jì)劃到2021年每天可生產(chǎn)200桶燃料。捕集生產(chǎn)的二氧化碳可制成燃料，從而使得碳零排。二氧化碳加氫制甲醇、芳烷、異構(gòu)烷烴及高品質(zhì)汽油等方面也開(kāi)展了一系列研究及應(yīng)用，并取得了顯著成果。 According to a study by Carbon Engineering, a Canadian company, every 1 million tons of carbon dioxide can be used to produce 114 million liters of fuel. The company began operating CO2 fuel conversion in 2017 and plans to produce 200 barrels of fuel per day by 2021. The captured CO2 can be used as fuel to achieve zero carbon emissions. A series of research and applications have also been carried out in the hydrogenation of carbon dioxide to produce methanol, aromatic hydrocarbons, isomers, and high-quality gasoline, and significant achievements have been achieved.

德潤(rùn)晨二氧化碳吸附材料可應(yīng)用于航天器的環(huán)控生保系統(tǒng)。CO2濃度控制在中長(zhǎng)期的載人飛行具有重要意義。在現(xiàn)有的CO2氣體清除和濃縮方案中，固態(tài)胺水蒸氣解吸技術(shù)由于其吸附量大，并能低壓熱解吸，從而具有大幅節(jié)省能源的優(yōu)勢(shì)，成為了較具發(fā)展前景的方案。