摘要：【中文】本申请公开了一种服务审批系统、方法、装置及计算机可读存储介质，应用于多云管理平台，包括：服务规格存储模块，用于存储格式统一的服务规格；服务申请模块，用于接收服务选择信息，提交与服务选择信息相对应的服务申请至审批模块；审批模块，用于显示服务申请至用户，接收与服务申请对应的审批指令，将审批成功信息发送至服务实例创建模块或将审批退回信息发送至退回模块；服务实例创建模块，用于利用服务规格，创建服务实例；退回模块，用于利用审批退回信息退回相对应的服务申请；本申请利用格式统一的服务规格，便于快速浏览到服务规格中的关键信息，可以快速判断是否可以同意相应的服务申请，提高了审批效率。 【EN】The application discloses a service approval system, method, device and computer readable storage medium, which are applied to a multi-cloud management platform and comprise the following steps: the service specification storage module is used for storing service specifications with uniform formats; the service application module is used for receiving the service selection information and submitting a service application corresponding to the service selection information to the approval module; the approval module is used for displaying the service application to the user, receiving an approval instruction corresponding to the service application, and sending approval success information to the service instance creation module or sending approval return information to the return module; the service instance creating module is used for creating a service instance by using the service specification; the return module is used for returning the corresponding service application by using the approval return information; the service specification with the uniform format is utilized, so that the key information in the service specification can be browsed conveniently and quickly, whether corresponding service application can be agreed or not can be judged quickly, and the approval efficiency is improved.

摘要：【中文】本发明公开了一种服务器及基于K8S集群的公共配置参数配置方法、系统及计算机可读存储介质，该方案中，K8S集群会预先建立公共pod，用于配置各个服务的中间件所需的公共配置参数，该种方式实现了其他服务与这些公共配置参数的解耦和，后续其他服务需要使用这些公共配置参数时可以通过访问公共pod的方式来获取；在需要对公共配置参数进行修改时，则仅需对公共pod中的公共配置参数进行修改即可，耗时少，管理效率高，且不会出现漏修改的情况，可靠性高；此外，在对公共配置参数进行修改时不影响其他服务在其所运行的pod上执行其他功能，进一步提高了可靠性。 【EN】The invention discloses a server, a public configuration parameter configuration method based on a K8S cluster, a system and a computer readable storage medium, wherein in the scheme, the K8S cluster can pre-establish a public pod for configuring public configuration parameters required by middleware of each service, the mode realizes the decoupling of other services and the public configuration parameters, and other subsequent services can be obtained by accessing the public pod when the public configuration parameters are required to be used; when the public configuration parameters need to be modified, only the public configuration parameters in the public pod need to be modified, so that the time consumption is low, the management efficiency is high, the condition of modification omission is avoided, and the reliability is high; in addition, when the common configuration parameters are modified, other functions executed by other services on the pod operated by the common configuration parameters are not influenced, and the reliability is further improved.

摘要：【中文】本发明公开了一种新型真菌色素染色竹材的方法。工艺步骤包括1)对变色竹材进行菌源的分离，纯化后得到所需变色菌株；2)将变色菌株进行快速扩大培养；3)将含色素的菌饼浸泡在提取色素溶解剂中，抽提、离心后得到色素上清液；4)真空干燥上清液，得到干燥色素；5)制备色素染液，在真空状态下将竹材浸渍在色素染液中进行浸染；6)取出浸渍竹材，控制其含水率在8～14％。本发明提供的新型真菌色素染色竹材的方法绿色环保可持续，所制得的染色竹材具有色彩丰富可调控，对人体与环境无害等特点，且不会影响竹材的物理力学等使用性能，具有良好的实用性与装饰性。此染色方法可应用于竹单板、竹片、竹篾、竹丝等竹产品的染色。 【EN】The invention discloses a novel method for dyeing bamboo wood by using fungal pigment. The process comprises the steps of 1) separating the strain source of the color-changing bamboo material, and purifying to obtain the required color-changing strain; 2) carrying out rapid amplification culture on the color-changing strain; 3) soaking the pigment-containing fungus cake in a pigment extraction dissolving agent, extracting and centrifuging to obtain pigment supernatant; 4) vacuum drying the supernatant to obtain dried pigment; 5) preparing a pigment dyeing solution, and soaking the bamboo wood in the pigment dyeing solution in a vacuum state for dip dyeing; 6) and taking out the impregnated bamboo wood, and controlling the water content of the impregnated bamboo wood to be 8-14%. The novel method for dyeing bamboo wood by using fungal pigment provided by the invention is green, environment-friendly and sustainable, and the prepared dyed bamboo wood has the characteristics of rich and controllable colors, no harm to human bodies and the environment and the like, does not influence the use performances of the bamboo wood such as physical mechanics and the like, and has good practicability and decoration. The dyeing method can be applied to dyeing of bamboo products such as bamboo veneers, bamboo chips, bamboo splits, bamboo filaments and the like.

摘要：【中文】本发明公开了一种由微生物黑色素与PVA塑料复合而成的新型抗紫外防氧化薄膜的制备方法。工艺步骤包括1)选取分泌黑色素的微生物进行扩大培养并提取黑色素；2)将NaOH溶液溶解PVA，配制成PVA溶液；3)将黑色素加入PVA溶液中，得到黑色素/PVA混合液，水浴条件下充分混合后超声除气泡，得到无气泡黑色素/PVA混合液；4)将一定量黑色素/PVA混合液倒入模具后室温干燥，制成一种抗紫外防氧化薄膜。本发明提供的新型抗紫外防氧化薄膜的制备方法结合了微生物黑色素优异的抗紫外防氧化特性与PVA塑料良好的物理力学性能，具有可降解、环境友好等优势，可显著提升塑料薄膜的使用寿命，可用于建筑、汽车等的紫外线防护。 【EN】The invention discloses a preparation method of a novel anti-ultraviolet and anti-oxidation film compounded by microbial melanin and PVA plastic. The process comprises 1) selecting microorganism secreting melanin for amplification culture and extracting melanin; 2) dissolving PVA in NaOH solution to prepare PVA solution; 3) adding melanin into a PVA solution to obtain a melanin/PVA mixed solution, fully mixing under a water bath condition, and ultrasonically removing bubbles to obtain a bubble-free melanin/PVA mixed solution; 4) pouring a certain amount of melanin/PVA mixed solution into a mould, and drying at room temperature to prepare the anti-ultraviolet and anti-oxidation film. The preparation method of the novel anti-ultraviolet and anti-oxidation film provided by the invention combines the excellent anti-ultraviolet and anti-oxidation characteristics of the microbial melanin and the good physical and mechanical properties of the PVA plastic, has the advantages of degradability, environmental friendliness and the like, can obviously prolong the service life of the plastic film, and can be used for ultraviolet protection of buildings, automobiles and the like.

摘要：【中文】本发明公开了一种利用木材变色菌色素进行木材染色的方法。工艺步骤包括1)对变色木材中的变色菌进行提取与纯化；2)将纯化后的变色菌扩大培养至成熟的变色菌色素菌落；3)提取变色菌色素菌落中的变色菌色素并进行纯化处理后，配置成一定浓度的色素染液；4)将木材浸泡在色素染液中，制成变色菌色素染色木材；5)将色素染色木材进行干燥处理与调湿调质。本发明提供的利用木材变色菌色素进行木材染色的方法绿色环保可持续，可制成一种环境友好型、可再生和生物相容性优异的清洁染色材料。此染色方法可应用于单板、木片等木制产品的染色，具有广阔的发展前景。 【EN】The invention discloses a method for dyeing wood by using wood color-changing bacteria pigment. The process comprises the steps of 1) extracting and purifying chromobacteria in chromobacteria wood; 2) the purified chromobacteria is enlarged and cultured to mature chromobacteria colonies; 3) extracting color-changing bacterium pigments in the color-changing bacterium pigment colonies, purifying, and preparing a pigment dye solution with a certain concentration; 4) soaking wood in pigment dyeing solution to obtain chromobacterium pigment-dyed wood; 5) drying the pigment-dyed wood and conditioning the moisture. The method for dyeing the wood by using the wood color-changing bacteria pigment is green, environment-friendly and sustainable, and can be prepared into an environment-friendly, renewable and clean dyeing material with excellent biocompatibility. The dyeing method can be applied to dyeing of wood products such as veneers, wood chips and the like, and has wide development prospect.

摘要：【中文】本发明公开了一种高效搅拌制备铝基复合材料的装置与方法，包括行星轮系组件，所述行星轮系组件包括自内向外的中心轮、行星轮和行星架，所述中心轮和所述行星架分别与所述行星轮齿轮啮合，所述行星轮上安装有搅拌针。中心轮转动通过齿轮带动行星轮转动，从而带动行星轮上的搅拌针转动，从而该行星轮系组件既有自转又有公转，在保证了行星轮系组件上的搅拌针转动的同时，也可以实现多搅拌针的周向转动。利用该行星轮系组件进行铝基复合材料的制备，可显著提高铝基复合材料的制备效率。 【EN】The invention discloses a device and a method for preparing an aluminum-based composite material by high-efficiency stirring, which comprises a planetary gear train component, wherein the planetary gear train component comprises a central wheel, a planetary gear and a planetary carrier from inside to outside, the central wheel and the planetary carrier are respectively meshed with a planetary gear, and a stirring needle is arranged on the planetary gear. The central wheel rotates to drive the planetary wheels to rotate through the gears, so that the stirring needles on the planetary wheels are driven to rotate, the planetary gear train component has both autorotation and revolution, and the circumferential rotation of multiple stirring needles can be realized while the rotation of the stirring needles on the planetary gear train component is ensured. The preparation efficiency of the aluminum matrix composite material can be obviously improved by utilizing the planetary gear train component to prepare the aluminum matrix composite material.

摘要：【中文】一种CFD‑ASM耦合模拟模型、其建立方法及污水处理系统优化方法，改CFD‑ASM耦合模拟模型的建立方法包括建立待优化污水生物处理系统的三维几何模型，确定计算域；将根据计算域将建立的三维几何模型网格化处理，得到第一模型；设置第一模型的边界条件且满足收敛标准残差后得到第二模型；利用第二模型进行流态数值模拟且流态数值模拟结果满足流态要求后得到第三模型；将第三模型进行生物反应动力学优化，满足出水水质排放标准，形成所述的CFD‑ASM耦合模拟模型。本发明能预测工艺处理效能；根据模拟平台，可以计算出一定水质和计算条件下出水水质情况，包括进出水、去除率等，这对于选择工艺类型和设计工艺参数具有很强的指导意义。 【EN】A CFD-ASM coupling simulation model, an establishing method thereof and a sewage treatment system optimization method are provided, wherein the establishing method of the CFD-ASM coupling simulation model comprises the steps of establishing a three-dimensional geometric model of a sewage biological treatment system to be optimized and determining a calculation domain; performing gridding processing on the established three-dimensional geometric model according to the calculation domain to obtain a first model; setting the boundary condition of the first model and obtaining a second model after meeting the convergence standard residual; performing flow state numerical simulation by using the second model, and obtaining a third model after a flow state numerical simulation result meets the flow state requirement; and carrying out biological reaction dynamics optimization on the third model to meet the effluent quality discharge standard, and forming the CFD-ASM coupling simulation model. The invention can predict the processing efficiency of the process; according to the simulation platform, the water quality conditions of the outlet water under certain water quality and calculation conditions, including inlet and outlet water, removal rate and the like, can be calculated, and the method has strong guiding significance for selecting process types and designing process parameters.

摘要：【中文】本发明公开了一种由两种变色菌分段式协同染色木材的一种方法。工艺步骤包括1)变色真菌的分离、纯化培养并保存；2)将两种变色菌分别在固体培养基与液体培养基中扩大培养；3)将木材浸泡于一种变色菌的液体培养基进行接种；4)取出木材，变色菌在木材表面进行繁衍与染色；5)将染色后的木材置于另一变色菌的PDA培养基，进行协同染色；5)灭菌处理与湿热平衡。本发明提供的一种变色菌分段协同染色木材的方法利用了变色菌由于拮抗作用而分泌大量色素这一特性，可以使染色木材表面的两种色素充分混合，实现调控染色颜色，还具有染色均匀、环境友好等优势，具有广阔的发展前景，同时为木材染色工艺提供了一种生物方法。 【EN】The invention discloses a method for sectional type collaborative dyeing of wood by two kinds of chromobacteria. The process comprises 1) separating, purifying, culturing and storing allochroic fungi; 2) respectively carrying out amplification culture on the two kinds of discoloring bacteria in a solid culture medium and a liquid culture medium; 3) soaking wood in a liquid culture medium of a color-changing bacterium for inoculation; 4) taking out the wood, and performing multiplication and dyeing on the surface of the wood by using color-changing bacteria; 5) placing the dyed wood in a PDA culture medium of another chromotropic bacteria for synergistic dyeing; 5) the sterilization treatment is balanced with the damp heat. The method for the sectional synergistic dyeing of the wood by the chromotropic bacteria utilizes the characteristic that the chromotropic bacteria secretes a large amount of pigments due to antagonism, can fully mix the two pigments on the surface of the dyed wood, realizes the regulation and control of dyeing color, has the advantages of uniform dyeing, environmental friendliness and the like, has wide development prospect, and provides a biological method for a wood dyeing process.

摘要：【中文】一种基于增效气体喷管的厌氧发酵系统，增效气体喷管包括依次相连的主管段、缩径段、喉管段和扩展段，本发明的增效气体喷管，能够使入口的气体经增效气体喷管后获得更大气体流速，可有效提高对厌氧发酵罐内物料的搅拌和混合能力，降低能耗，并通过增效气体喷管与厌氧发酵罐的合理装配，实现延长高含固/干式厌氧工程运行维护间隔时间，也能缩短维护时的清罐时间；本发明的高效气体搅拌装置，可用于高含固和干式厌氧发酵罐在运行过程中的物料搅拌过程，促进厌氧发酵罐内高浓度物料混合均匀化、不易分层，方便停机的厌氧发酵罐重启，较之机械搅拌和以往的气体搅拌装置，具有经济、高效、适用性强的特点。 【EN】The invention relates to an anaerobic fermentation system based on a synergistic gas spray pipe, wherein the synergistic gas spray pipe comprises a main pipe section, a reducing section, a throat pipe section and an expanding section which are sequentially connected; the high-efficiency gas stirring device can be used for the material stirring process of the high-solid content and dry type anaerobic fermentation tank in the operation process, promotes the high-concentration material in the anaerobic fermentation tank to be uniformly mixed, is not easy to layer, is convenient for restarting the anaerobic fermentation tank during shutdown, and has the characteristics of economy, high efficiency and strong applicability compared with a mechanical stirring device and a traditional gas stirring device.

摘要：【中文】本发明公开了一种通过调控变色菌生长与色素分泌来染色竹木材的方法。工艺步骤包括1)将变色真菌培养成染色真菌溶液；2)竹木材浸泡于染色真菌溶液进行接种；3)控制变色真菌在竹木材不同表面的生长速度和色素分泌；4)染色竹木材灭菌处理；5)养护平衡后得到一种新型生物色素染色竹木材。本发明提供的一种生物色素染色竹木材的方法，利用了竹木材变色真菌优异的生物相容性与防氧化生物特性，具有绿色环保、环境友好等优势，可应用于竹木单元产品的染色，具有广阔的发展前景。 【EN】The invention discloses a method for dyeing bamboo and wood by regulating and controlling the growth of chromobacterium and pigment secretion. The process comprises 1) cultivating color-changing fungi into dyeing fungi solution; 2) soaking the bamboo wood in a dyeing fungus solution for inoculation; 3) controlling the growth speed and pigment secretion of color-changing fungi on different surfaces of the bamboo and wood; 4) sterilizing the dyed bamboo and wood; 5) maintaining and balancing to obtain the novel biological pigment dyed bamboo wood. The method for dyeing the bamboo and wood by using the biological pigment provided by the invention utilizes the excellent biocompatibility and anti-oxidation biological characteristics of the bamboo and wood color-changing fungi, has the advantages of environmental protection, environmental friendliness and the like, can be applied to dyeing of bamboo and wood unit products, and has a wide development prospect.