年产10000吨浓缩苹果汁工厂设计

1引言1.1苹果概述苹果,别名频婆。

原产于欧洲中部和东南部、中亚细亚以及我国新疆一带。

在欧洲,苹果是最古老的果树之一,早在公元前2000以前就已人工栽培。

在哥伦布发现新大陆之后,欧洲的移民把苹果传到了美国。

在东方，日本在明治维新时代引进苹果栽培技术。

此后，苹果又相继传入了欧洲、澳洲、非洲。

从18世纪以来，人们不断的改进苹果的品种以追求更好的品质。

在我国，根据晋代郭义恭的《广志》以及后魏贾思勰的《齐民要术》记载，苹果在我国已经有2000多年的栽培历史。

目前，在我国各个苹果产区作为经济作物栽培的苹果品种还几乎都是从国外引进的，统称为西洋苹果。

我国开始引进西洋苹果是在1870年，栽培历史仅100年左右[1]。

1.2苹果汁的历史,现状和发展趋势苹果汁的加工距今已有一百多年的历史。

大规模的工业化生产约在1930年，始于欧洲和美国，北美的苹果汁工业化生产大约始于1937年。

我国的苹果汁生产近年已初具规模，国内不少企业从意大利、德国、瑞典和美国引进现代化的苹果汁生产线，也有许多企业采用国产化苹果汁生产线。

国产化苹果汁生产线采用了先进的生产工艺，所用设备全部选用国产设备，大幅度降低了投资成本，配件供应及时，设备维修方便，费用低[2]。

由于近年来随着经济的发展，果汁逐渐取代碳酸型的饮料成为了人们日常的饮品，苹果汁作为产量较大的果汁品种，有很大的发展前景。

另外目前我国苹果鲜销市场已出现卖苹果难的问题,发展苹果加工业是解决卖果难的一条重要途径。

苹果可以加工成许多产品,但以果汁最受欢迎。

市场上销售的苹果汁主要以清汁为主，而且大都是由浓缩汁加水还原而成。

在苹果清汁或浓缩汁生产中,澄清过程都需添加果胶酶分解果汁中的果胶及添加一些澄清剂如明胶,不仅生产工艺复杂,而且延长了加工时间,如处理不当会影响产品的风味,营养成分被破坏,同时苹果中的果胶作为一种膳食纤维没有被利用。

随着消费者健康意识的增强,纯天然、营养、新鲜、保持水果原味的浑浊型果汁为消费者崇尚。

目录1.前言1.我1国浓缩苹果汁产业现状及简况1.市2场前景分析2.工艺流程3.物料衡算4.设备选型5.个人小结年产300吨0浓缩苹果汁工厂设计1.前言苹果浓缩汁是将成熟的苹果经过拣选清洗、破碎、压榨、浓缩而成的原料性产品，并经过饮料生产商再加工才能消费的产品，是世界最主要的苹果加工品。

世界上许多国家，尤其是盛产苹果的欧美等发达国家部有饮用苹果汁的消费惯。

浓缩苹果汁由于价格便宜，口味较淡，也常常作为一些价格昂贵果汁饮料的基础配料和添加物欧美日市场上的％纯果汁、果菜混合汁、蔬菜汁、水果啤酒等，都离不开苹果浓缩汁这一风味特性温和的基料。

国外9％0的饮料生产厂商将浓缩苹果汁用作饮料生产的勾兑和调味。

近年来，随着人们健康意识的增强，世界饮料市场中碳酸饮料的增长开始减缓，在欧美〜些国家，碳酸饮料由于其过高的糖含量，已鼓界定为不适合青少年和肥胖人群消费的饮料。

纯果汁和果汁类饮料由其具有天然、健康的特性，产销量增长迅速。

从而决定了未来对苹果浓汁的需求将继续呈稳中有升势。

1.我1国浓缩苹果汁产业现状及简况我国浓缩苹果汁生产最早从山东开始。

年，山东中鲁公司开始进口浓缩苹果汁的生产加工设备，直到上世纪九十年代中期，浓缩苹果汁的生产加工主要在山东，年产量不超过2，00吨0。

从上世纪九十年代中期开始，浓缩苹果汁的生产加工得到了迅猛的发展，生产加工企业由八十年代集中在山东苹果主产区，发展到陕西、河南、山西和辽宁等苹果产区。

浓缩苹果汁加工企业由八十年代的一家发展到目前的三十五家，年加工业生产能力从九十年代中期的16吨0猛0增至现在的90多万吨。

目前我国已成为世界浓缩苹果汁的第一大生产国和出口国，图一显示〜20年0我6国苹果浓缩汁产量。

目前全国浓缩苹果汁生产企业已可年转化近60万0吨苹果，占苹果总产量的近25％，极大地缓解了苹果主产区卖果难的问题，并使我国主要苹果产区的加工用苹果收购价从.元/公斤，基本稳定在.元/公斤以上，仅此就可使近百万户的果农受益，为农民年增加收入约1亿3元。

年产100t苹果清汁浓缩汁工厂设计年产100t苹果清汁浓缩汁工厂设计一、工厂概述本工厂是一家年产量为100t的苹果清汁浓缩汁工厂，位于适宜种植苹果的地区。

工厂占地面积1000平方米，拥有完备的生产设施和现代化的生产线，以确保生产的高效、规范和安全。

二、工厂布局工厂整体布局分为生产区、包装区和办公区三个区域。

1. 生产区：占地面积700平方米，包括原料处理区、浓缩汁生产区和清汁生产区。

原料处理区主要进行苹果的初步处理，如清洗、去皮去核等；浓缩汁生产区进行苹果浓缩汁的生产和浓缩；清汁生产区对浓缩汁进行稀释和加工，最终形成苹果清汁。

2. 包装区：占地面积200平方米，用于对生产好的苹果清汁进行包装。

包装区设有专门的包装线，能够满足快速、高效的包装需求。

3. 办公区：占地面积100平方米，包括办公室、会议室和员工休息室等功能区域。

办公区为工厂提供了舒适的工作环境，方便员工进行管理和沟通。

三、工厂设备1. 原料处理设备：包括苹果清洗机、去皮机、去核机等工艺设备。

这些设备能够高效地对苹果进行初步处理，减少人工成本和提高生产效率。

2. 浓缩汁生产设备：包括浓缩机、化验设备和过滤设备等。

浓缩机能够将苹果汁中的水分蒸发掉，形成浓缩汁；化验设备用于对浓缩汁进行品质检测和监控；过滤设备可以去除浓缩汁中的杂质。

3. 清汁生产设备：包括稀释机、搅拌机和杀菌设备等。

稀释机能够将浓缩汁按照一定的比例稀释成清汁；搅拌机用于均匀搅拌清汁；杀菌设备能够对清汁进行杀菌处理，确保产品的卫生安全。

4. 包装设备：包括自动灌装机、封口机和贴标机等。

这些设备能够快速、准确地将生产好的清汁进行包装，提高包装效率和产品质量。

5. 办公设备：包括电脑、打印机、复印机和电话等，用于办公区的日常工作和管理。

四、生产流程1. 原料处理：将采摘来的苹果进行清洗、去皮、去核等处理，确保原料的卫生和品质。

2. 浓缩汁生产：将处理好的苹果放入浓缩机进行蒸发，使得水分蒸发掉，形成浓缩汁。

果汁工厂设计This manuscript was revised by JIEK MA on December 15th, 2012.摘要本设计主要是进行年处理100000吨浓缩果汁工厂设计。

在对我国苹果汁生产量及销售量所处情况进行分析后，拟定在西安南郊建立一苹果汁浓缩厂，首先进行厂址的选择，然后制定设计原则，设计方案，并确定年产量。

第二，进行工艺流程论证，并做出工艺流程图，进行合理性评价。

第三，进行物料衡算，选择主要设备，同时，进行热量衡算，对水电气的的用量及费用进行估算，为了解决浓缩苹果汁质量安全问题，有必要将HACCP体系原理应用于苹果汁生产中。

最后，还进行经济效益分析。

考虑到技术的发展水平，本设计应尽量采用自动化生产线，已达到高效，安全，合理的效果。

关键词：浓缩，苹果汁，工艺流程，工厂设计，HACCPAbstractThis design is mainly carried 100,000 tons of concentrated fruit juice processing plant design.In the production of apple juice and sales analysis of the situation in which to draw in the southern suburbs of Xi'an to build a plant applejuice concentrate. First, the choice of the site, then develop design principles, design, and determine the annual, Second, the process argument, and make process flow diagrams, a reasonable assessment, Third, thematerial balance, choice of major equipment at the same time, the heat balance, the amount of water and electrical costs were estimated,In order to solve the problem of quality and safety of apple juice concentrate, it is necessary to apply principles of HACCP system in production of apple juice. Finally, the economic benefit analysis.Taking into account the level of technological development, the design should maximize the use of automated production lines, has reached the efficient, safe, and reasonable results.Key words: concentrate, apple juice, process, plant design, HACCP第一章绪论全球苹果生产现状和发展趋势据统计世界生产苹果的国家有80多个，年产量超过或接近100万吨的主产国有12个，即中国2050，美国390，土耳其250，意大利221，法国214，波兰，德国俄罗斯140，智利106，阿根廷100，日本巴西（单位：万吨）。

英文文献2.5.3. Design and construction of the buildingRoofs and ceilingsWallsWindows and doorsFloorsLighting and powerWater supply and sanitationLayout of equipment and facilitiesIn general, a building should have enough space for all production processes to take place without congestion and for storage of raw materials, packaging materials and finished products. However, the investment should be appropriate to the size and expected profitability of the enterprise to reduce start-up capital, the size of any loans taken out and depreciation and maintenance charges.Roofs and ceilingsIn tropical climates, overhanging roofs keep direct sunlight off the walls and out of the building. This is particularly important when processing involves heating, to make working conditions more comfortable. Fiber-cement tiles offer greater insulation against heat from the sun than galvanized iron sheets do. High level vents in roofs both allow heat and steam to escape and encourage a flow of fresh air through the processing room. The vents must be screened with mesh to prevent insects, rodents and birds from entering the room. If heat is a serious problem, the entrepreneur could consider fitting electric fans or extractors, although this clearly increases capital and operating costs.Rafters or roof beams within the processing and storage rooms are unacceptable. They allow dust to accumulate, which can fall off in lumps to cause gross contamination of products. Similarly, insects can fall from them into products. They also allow paths for rodents and birds, with consequent risks of contamination from hairs, feathers or excreta. It is therefore essential to have a paneled ceiling fitted to any processing or store-oom, with careful attention when fitting them to ensure that there are no holes in the paneling. Care should also be taken to prevent birds, rodents and flying insects gaining access to the processing room through gaps in the roof structure or where the roof joins the walls.WallsAs a minimum requirement, all internal walls should be rendered or plastered with a good quality plaster to prevent dust forming in the processing room. An experienced plasterer should be used to ensure that no cracks or ledges remain in the surface finish, which could accumulate dirt and insects. The lower area of walls, to at least 1.08 metres (four feet) above the floor, is most likely to get dirty from washing equipment, from product splashing etc. and special attention should be paid to ensure that this area is easily cleaned. Higher areas of walls should be painted with a good quality emulsion. The lower parts of walls should be either painted with a waterproof gloss paint, preferably white, to allow them to be thoroughly cleaned, or ideally they should be tiled with glazed tiles. If tiling a process room is too expensive, it is possible to select particular areas such as behind sinks or machinery and only tile these parts. In some countries there is a legal requirement for specified internal finishes and this should be checked with the Ministry of Health or other appropriate authority (see also Section 2.4.2)Windows and doorsWindow sills should be made to slope for two reasons: to prevent dust from accumulating and to prevent operators from leaving cloths or other items lying there, which in turn can attract insects. Windows allow staff to work in natural daylight, which is preferable to and cheaper than electric lighting. However, in tropical climates there is a natural inclination for workers to open windows to allow greater circulation of fresh air. This provides easy access for flying insects, which can readily contaminate the product. Windows should therefore be fitted with mosquito mesh to allow them to be left open.Normally doors should be kept closed, but if they are used regularly there is again a tendency for them to be left open with similar consequences of animals and insects entering the plant. In this case, thin metal chains or strips of material that are hung vertically from the door lintel may deter insects and some animals, while allowing easy access for staff. Alternatively mesh door screens can be used. Doors should be fitted accurately so that there are no gaps beneath them and all storeroom doors should be kept closed to prevent insects and rodents from destroying stock or ingredients.FloorsIt is essential to ensure that the floors of processing rooms and storerooms are constructed of good quality concrete, smooth finished and without cracks. In some developing countries, it is possible to buy proprietary floor paints or vinyl based coatings, but these are usually very expensive. Generally, it is not adequate to use the red wax floor polishes that are commonly found in households, as these wear away easily and could contaminate either products or packages. Over time, spillages of acidic fruit products react with concrete andcause it to erode. Attention should therefore be paid to cleaning up spillages as they occur and to regularly monitor the condition of the floor.The comers where the floor and the walls join are places for dirt to collect. During construction of the floor, it should therefore be curved up to meet the wall. It is possible to place fillets of concrete (or 'coving') in the comers of an existing floor to fill up the right angle, but care is needed to ensure that new gaps are not created which would harbour dirt and insects.The floor should slope at an angle of approximately 1 in 8 to a central drainage channel. At the end of a day's production, the floor can be thoroughly washed and drained. Proper drainage prevents pools of stagnant water forming, which would in turn risk contamination of equipment and foods. The drainage channel should be fitted with an easily removed steel grating so that the drain can be cleaned. Where the drain exits the building, there is a potential entry point for rodents and crawling insects unless wire mesh is fitted over the drain opening. This too should be easily removed for cleaning.Lighting and powerGeneral room lighting should be minimized wherever possible. Full use should be made of natural daylight, which is both free and better quality light, especially for intricate work. Where additional lighting is needed, florescent tubes are cheaper to operate than incandescent bulbs. However, if machinery is used that has fast moving exposed parts, these should be lit with incandescent bulbs and not tubes. This is because even though the parts should have guards fitted, a rotating machine can appear to stand still if its speed matches the number of cycles of the mains electricity that powers fluorescent tubes - with obvious dangers to operators.All electric power points should be placed at a sufficiently high level above the floor that there is no risk of water entering them during washing the floor or equipment. Ideally, waterproof sockets should be used. It is important to use each power point for one application and not use multiple sockets which risk overloading a circuit and causing a fire. If there are insufficient power points for the needs of a process, additional points should be installed, even though this is more expensive. All plugs should be fitted with fuses that are appropriate for the power rating of the equipment and ideally the mains supply should have an earth leakage trip switch. If three-phase power is needed for larger machines or for heavy loads from electric heating, it is important that the wiring is installed by a qualified electrician to balance the supply across the three phases.Water supply and sanitationWater is essential in nearly all fruit and vegetable processing, both as a component of products and for cleaning. An adequate supply of potable water should therefore be available from taps around the processing area. In many countries, the mains supply is unreliable or periodically contaminated and it is therefore necessary for the entrepreneur to make arrangements to secure a regular supply of good quality water each day. This can be done byinstalling two high level, covered storage tanks either in the roof-space or on pillars outside the building. They can be filled alternately when mains water is available and while one tank is being used, any sediment in water in the other tank is settling out. As sedimentation takes several hours, the capacity of each tank should be sufficient for one day's production. The tanks should have a sloping base and be fitted with drain valves above the slope and at the lowest point. In use, water is taken from the upper valve and when the tank is almost empty, the lower valve is opened to flush out any sediment that has accumulated.Water that is included in a product should be carefully treated to remove all traces of sediment and if necessary, it should be sterilised. This is particularly important if the product is not heated after water has been mixed in as an ingredient.There are four ways of treating water at a small scale: by filtration; by heating; byultra-violet light and by chemical sterilants, such as hypochlorite (also named 'chlorine solution' or 'bleach'). Other water treatment methods are generally too expensive at a small scale of operation.Filtration through domestic water filters is slow, but having made the capital expenditure, it is relatively cheap. Larger industrial filters are available in some countries. Heating water to boiling and holding it at that temperature for 10-15 minutes is simple and has low capital costs, but it is expensive because of fuel costs and it is time consuming to do routinely. Heating sterilises the water but does not remove sediment and boiled water may therefore require filtering or standing to remove sediment.Ultra-violet light destroys micro-organisms in water and commercial water treatment units that use this principle (Figure 38) are coming down in price to the point that they can be suitable for those small scale processors that use a lot of water. Again, this method does not remove sediment from the water.Finally, chemical sterilisation using hypochlorite is fast, relatively cheap and effective against a wide range of micro-organisms. Cleaning water should contain about 200 ppm of chorine and water that is used as an ingredient should contain about 0.5 ppm to avoid giving a chlorine flavour to the product. A chlorine concentration of 200 ppm can be made by adding 1 litre of bleach to 250 litres of water and a 0.5 ppm solution is obtained by adding 2.5 ml of bleach to 250 litres of water. Although chlorine kills most micro-organisms, it also has a number of disadvantages: it can corrode aluminium equipment; it can taint foods; bleach must be handled with great care as it damages the necessary, the concentration of chlorine in water can be measured using a chemical dye that produces a colour when it reacts with chlorine. The intensity of the colour is compared to standard colours on glass discs in a 'comparator'.Good sanitation is essential to reduce the risk of product contamination and to deter insects, rodent and birds. All wastes should be placed in bins and not piled on the floor. Processes should have a management system in place to remove wastes from the building as they are produced, rather than letting them accumulate during the day. Wastes should never be left in a processing room overnight. This aspect is described further in Section 2.7.2, and summarized in Appendix I.Layout of equipment and facilitiesThe different areas required for fruit and vegetable processing are shown in Figure 39 for a drying unit and in Figure 40 for other types of production. The layouts of these processing rooms show how raw materials move through a process and through the room without paths crossing. Different stages in a process should be physically separated wherever possible. This helps prevent contamination of finished products by incoming, often dirty, raw materials and clearly identifies areas of the room where special attention to hygiene is necessary. This is particularly important to prevent contamination arising from activities such as bottle washing in which inevitable breakages produce glass splinters that could contaminate a product. This separation also reduces the likelihood of accidents or of operators bumping into each other.Perishable raw materials should be stored separately from non-perishable ingredientsand packaging materials. A separate office allows records to be filed and kept clean and provides a quieter working environment for book-keeping. Toilets should either be housed in a separate building or two doors should exist between them and a processing area. All workers should have access to hand-washing facilities with soap and clean towels. Laboratory facilities are generally not needed in fruit and vegetable processing, although a separate table for conducting quality assurance checks or check-weighing packages of finished product (Section 2.7.2) could be located in the office or in a separate area of the processing room.英文文献译文2.5.3.建筑物的设计和建造屋顶和天花板墙壁窗户和门地板照明和能源水供应和公共卫生仪器和设备的布局总的说来，一个厂房应该有足够的空间来进行产品的加工制造，避免拥堵和原料，包装材料和成品混杂储存的情况发生。

万吨苹果汁生产工厂设计1. 引言苹果汁是一种受到广大消费者青睐的饮品，其市场需求量不断增长。

为了满足市场需求，建设一座万吨级的苹果汁生产工厂势在必行。

本文将详细介绍万吨苹果汁生产工厂的设计方案。

2. 工厂布局2.1 总体布局万吨苹果汁生产工厂应采用合理的总体布局，以确保生产效率和工作流畅。

总体布局可分为生产区和辅助区两部分。

2.1.1 生产区生产区包括原料处理区、生产线区和成品储存区。

原料处理区用于对输入的苹果进行清洗、破碎和提取汁液等工艺处理。

生产线区用于对苹果汁进行过滤、浓缩、杀菌和包装等加工过程。

成品储存区用于存放已经包装好的苹果汁。

2.1.2 辅助区辅助区包括办公区、员工休息区、设备维护区和仓储区。

办公区用于管理和协调工厂的日常运营。

员工休息区提供员工用餐和休息的场所。

设备维护区用于存放和维修工厂所使用的设备。

仓储区用于存放原材料和包装材料。

2.2 生产线布局在生产线区，应根据工艺流程以及设备要求进行布置，以确保生产线的高效运转。

以生产线区为中心，将各个生产环节合理地串联起来，最大程度地减少人工移动距离和生产线上的交叉作业。

3. 生产设备万吨苹果汁生产工厂应配备先进的生产设备，以提高生产效率和产品质量。

3.1 原料处理设备原料处理设备包括苹果清洗机、苹果破碎机和苹果汁提取机。

清洗机用于对输入的苹果进行清洗，去除表面的污物。

破碎机用于将清洗后的苹果破碎成小块。

提取机用于从破碎的苹果中提取汁液。

3.2 加工设备加工设备包括过滤机、浓缩机、杀菌机和包装机。

过滤机用于去除汁液中的杂质和固体颗粒。

浓缩机用于将汁液中的水分蒸发掉，使其浓缩成浓缩苹果汁。

杀菌机用于对浓缩苹果汁进行高温杀菌处理，以延长其保质期。

包装机用于将杀菌后的苹果汁装入包装容器中。

4. 工艺流程4.1 原料处理工艺流程1.苹果清洗：将输入的苹果放入清洗机中进行清洗。

2.苹果破碎：将清洗后的苹果送入破碎机中进行破碎。

3.提取汁液：将破碎后的苹果送入提取机中提取汁液。

年处理10000吨果汁综合加工项目初步设计年处理100000吨果汁综合加工项目设计说明书目录第一章总论第一节设计依据和范围第二节设计原则第三节建设规模和产品方案第四节项目进度建议第五节主要原辅料供应情况第六节厂址概述第七节公用工程和辅助工程第二章总平面布置及运输第一节总平面布置第二节工厂运输第三章企业组织与劳动定员第四章车间工艺第一节工艺流程及相关工艺参数第二节物料衡算第三节车间设备选型配套明细表第五章管道设计第一节管道计算与选用第二节管道附件与选用第三节管路布置第六章项目经济分析第一节产品成本与售价第二节经济效益第三节投资回收期第一章总论第一节设计依据和范围1.1 设计依据根据市场上果汁饮料的盛行，各种各样的品种淋漓满目，生产一种新产品是发展的需要。

自己投产建立年产10万吨果汁加工厂，设计主要以国内饮料生产技术为基础，结合国内外先进生产工艺设备，参考有关文献资料，应用CAD 技术，完成初步工艺设计。

1.2 设计范围设计范围包括生产工艺流程、物料恒算、设备选型、水电汽衡算、车间工艺平面设计、劳动组织分配、辅助部门设计等。

第二节设计原则2.1 设计原则以社会主义经济规律的特点为指导思想，将最新的科技成就先进的工艺流程和最佳的机械设备应用到设计中去。

必须认真考虑，技术上的可靠性，生产上的可行性和经济上的合理性，与当地具体情况想结合，达到优质、高产、高效、节能、精巧、耐用、安全的目的第三节建设规模和产品方案3.1 建设规模年生产果汁100000吨。

主要以生产苹果汁为主，其他果汁为辅。

3.2 产品方案(1)按果汁品种：苹果汁常年生产约9个月 (3个月大修)，产品设计吨位为80000t／年。

(2)其他品种果汁生产约6个月左右(按5个月计算—旺季生产)，当生产旺季时，以双班生产，故全年总月份按单班计算为14～15个月，并依苹果汁做为设计吨位等依据。

其他品种汽水设计计划吨位为20000t。

根据上述指标定出本设计产品方案如下：产品名称年产量/t班产量/t1月2天2月2天3月25天4月27天5月24天6月27天7月27天8月26天9月25天1月24天11月26天12月25天苹果汁8万296.6其他果汁2万107.02注：表示本月为一班生产表示本月为二班生产表示本月为三班生产第四节项目进度建议上面是果汁生产车间的产品方案，产品为苹果汁和其他果汁，每个品种各有两条生产线。

年产3万吨浓缩苹果汁工厂设计论文浓缩苹果汁是一种具有浓缩效果的苹果汁，其制作过程包括去除水分以达到浓缩的效果。

浓缩苹果汁具有浓郁的苹果风味和香甜口感，而且富含维生素和矿物质，广受消费者的喜爱。

为了满足市场需求并提高产量，本论文设计了一座年产3万吨浓缩苹果汁的工厂。

一、工厂总体布局设计1. 地理位置选址将工厂选址在苹果产地附近，以确保原料供应的便利性，并减少运输成本。

此外，还要考虑就近选择水源，以满足生产过程中对水的需求。

2. 建筑设计工厂建筑应符合安全、环保和工艺流程的要求。

建议采用单层或多层独立的厂房，用于存储原料、生产加工和产品储存。

厂房面积根据年产量确定，同时需考虑生产线的布局。

3. 环境保护工厂设计应考虑环境保护问题，采取必要的措施以降低对环境的影响。

例如，废水处理系统、废气处理设备等，以及合理的噪音控制措施。

此外，工厂周边的绿化和排水系统也需要加以考虑。

二、生产工艺流程设计1. 原料处理原料（苹果）在进入工厂后，首先需要经过清洗和去皮去核的处理，以确保原料的卫生和质量。

2. 浸出和浓缩经过处理的苹果进入浸出设备，通过溶剂浸出苹果的汁液。

然后，将获得的汁液送入浓缩设备进行浓缩，去除其中的水分，保留汁液的风味、糖分和其他有益物质。

3. 杀菌和灌装经过浓缩的苹果汁进入杀菌设备进行杀菌处理，达到消灭细菌和微生物的目的。

随后，将杀菌后的苹果汁进行灌装，以确保产品的卫生和质量。

4. 产品储存和包装灌装好的浓缩苹果汁将被储存到特定的储存设备中，保持其新鲜度和稳定性。

在储存过程中，若发现异常情况，需要进行监测和调整。

最后，将产品进行包装，以便销售和运输。

三、设备选型和布局设计根据工艺流程的要求，我们需要选购适合的设备，并将其布局在工厂中。

1. 设备选型根据不同工艺环节的要求，选购符合生产需求的设备。

具体来说，原料处理设备、浸出设备、浓缩设备、杀菌设备、灌装设备和包装设备等。

2. 设备布局将各个工艺环节所需设备按照流程连接，形成一个完整的生产线。

---文档均为word文档，下载后可直接编辑使用亦可打印---摘要在当今市场，苹果浓缩汁并不少见。

日常人们饮用的浓缩果汁饮料里，苹果浓缩汁是位于橙汁后的第二选择。

苹果浓缩汁凭借其丰富多层的口感，赢得了老少人民的喜爱。

纵观全世界苹果浓缩汁的生产市场，中国有着丰富的物产资源，还有着相对低廉劳动力，这两大优势使中国成为了全球最大的苹果浓缩汁生产和出口国。

近年受全球经济低迷和欧美技术贸易措施的影响,中国出口不断波动下滑,在国际市场的份额趋于降低。

若能改进现今苹果浓缩汁的生产技术、工艺技术，使其存放时间变长、口感更好且生产花费降低，就能大大提高中国浓缩苹果汁市场在国际的份额。

[1]本文旨在设计一间生产苹果浓缩汁的工厂。

苹果浓缩汁的主要原料是苹果，综合多方考察，最终选用甘肃省白银市的“国光”苹果作为生产原料。

苹果浓缩汁生产工艺难点在于控制非酶褐变反应和酶促反应，针对此的解决方案是采用使用高温瞬间灭酶等技术来减少产品风味和色泽的变化。

关键词：苹果浓缩汁；生产技术；高温瞬间灭酶；AbstractApple juice concentrate has a large trading market in the world today. Apple juice concentrate has become the second largest concentrated consumption variety in the world, next to orange juice. China's abundant resources and labor cost advantages make it the world's largest producer and exporter of concentrated apple juice. Nowadays, the production technology and technology of apple juice concentrate make the storage time longer, taste better and production cost lower, which can greatly improve the international share of China's apple juice concentrate market.The purpose of this paper is to design a factory to produce apple juice concentrate.The difficulties in the production process of apple juice concentrate lie in reducing volatile aromatic substances and controlling non-enzymatic browning reaction and enzymatic reaction during the concentration process.The solution to this problem is to reduce the change of flavor and color of the product by using the technology of instant enzyme inactivation at high temperature.Key words:Apple juice concentrate,Production Technology,High temperature instant enzyme killing technology目录1 绪论 (1)1.1 苹果浓缩汁的介绍 (1)1.2 苹果原料的选择 (1)1.3 苹果浓缩汁当今在国内的发展前景 (1)1.4 厂址选择 (2)2 班产量的确定 (2)3 苹果浓缩汁的工厂化生产 (2)3.1 工艺流程 (2)3.2 工艺流程详述 (3)3.2.1 原料验收 (3)3.2.2 挑选 (3)3.2.3 清洗 (3)3.2.4 破碎 (3)3.2.5 榨汁 (4)3.2.6 过滤 (4)3.2.7 灭酶 (4)3.2.8 蒸发 (4)3.2.9 成分调节 (5)3.2.10 酶解 (5)3.2.11 超滤 (5)3.2.12 灭菌 (5)3.2.13 无菌灌装 (6)4 物料衡算 (6)5 设备选型 (7)5.1 拣选机 (7)5.2 清洗机 (7)5.3 破碎机 (7)5.4 压榨机 (7)5.5 双联过滤器 (8)5.6 列管式预热灭酶机 (8)5.7 浓缩设备 (8)5.8 贮罐 (8)5.9 酶解罐 (9)5.10 超滤装置 (9)5.11 高温瞬时杀菌机 (9)5.12 灌装机 (9)6 热量衡算 (10)6.1 车间热交换图 (10)6.2 灭酶(第一次巴氏杀菌)耗能 (10)6.3 蒸发浓缩耗能 (10)6.4 灭菌（第二次巴氏消毒）耗能 (11)7 水电汽耗量估算 (11)7.1 用水估算 (11)7.1.1 班工艺用水耗量估算 (11)7.1.2 冷却水用水耗量估算 (12)7.13 生活用水耗量估算 (12)7.14 总用水量 (12)7.2 用汽估算 (12)7.3 用电估算 (12)8 经济估算 (13)8.1 原辅料成本估算 (13)8.2 包装成本估算 (13)8.3 设备成本估算 (13)8.4 水费估算 (14)8.5 电费估算 (14)9 三废处理 (14)9.1 废水处理 (14)9.2 废气处理 (14)9.3 废渣处理 (14)10 工厂总平面设计 (15)10.1全厂平面设计 (15)10.2 车间平面设计 (15)10.3 工厂布置设计图 (15)参考文献 (16)附录一 (17)附录二 (18)附录三 (19)附录四 (20)附录五 (21)1 绪论1.1 苹果浓缩汁的介绍新鲜水果在经过预处理后压榨出来的果浆被称为果汁。