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quarry granite kontrektor malaysia

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The production line offers super-fine heavy calcium carbonate with 400, 800, 1250 and 2500 mesh.The production process of Calcium Carbonate has involved ore grinding.

Manganese ore can be mined by open pit quarrying or underground mining method. Mining operations include the mining, crushing, grinding and screening of manganese, and ore handling and processsing plant. Zenith provides all types of manganese ore mining machine in India and all over the world, including extraction plant, crushing plant, grinding mill, screening machine, separation equipment etc.

At the phosphate rock production line, the slurry mixture goes through a two-step process to separate the phosphate rock from sand and clay particles. The first stage is a concentrating process that separates the phosphate pebbles from everything else. The average operation can wash and size a maximum of 375 tons of pebbles in an hour.

quarry granite kontrektor malaysia

After passing through the mill exhaust air through the fin heat exchanger 6, this is deducted by the Abluftausleitungsmittel 12 from the fin heat exchanger 6 and fed to the chimney 9. As stated above, the heat exchanger may preferably be a fin heat exchanger.In the exemplary embodiment, mill exhaust air with a temperature of about 110 ° C is fed to the fin heat exchanger 6 and withdrawn at a temperature of about 80 ° C from the fin heat exchanger 6 and fed to the chimney 9.All features of the invention may be combined with each other, individually or in combination.6 passing water through the heat exchanger such that heat is transferred from the mill exhaust air routed through the heat exchanger to the water;1.It can preferably be provided that the mill exhaust air is discharged at a temperature not lower than 60 ° C from the heat exchanger.The hot or hot water produced by the warming up in the heat exchanger can then be used for any purpose for which hot or hot water can be used, for example for sanitary or other cleaning purposes, as heating water for a heating system or for use as warm swimming water in a swimming pool ,The water to be heated by the method according to the invention may be, for example, tap water, which may for example be supplied to the heat exchanger from a water supply network, in particular, for example, also continuously.After discharging the mill exhaust air from the heat exchanger, it can be introduced into a chimney, through which the mill exhaust air can be discharged as exhaust gas into the atmosphere. In this process, mill exhaust air regularly accumulates in considerable quantities, which has proved to be an excellent medium for heating water by the process according to the invention, due to its temperature and composition.However, especially for reasons of resource conservation, it is nowadays particularly desirable to use these heat sources to a greater extent. In this respect, it can also be provided, for example, that the water during the passage through the heat exchanger to a temperature in the range of at least 70, 75, 80 or 85 ° C and, for example, heated at most to a temperature of 95 or 90 ° C. According to the invention it has been found that a heat transfer from the mill exhaust air to water is particularly effective when the water is as cold as possible and in particular has a temperature of not more than 30 ° C, that is for example not more than 25 or not more than 20 ° C. Alternatively, it can be provided that the water to be heated is supplied, for example, from a tank truck, for example, first cold water from the tank of the tanker introduced into the heat exchanger and then the water heated there again can be returned to the tank of the tanker.Method according to at least one of the preceding claims with a heat exchanger in the form of a plate heat exchanger. Claims (10)A process for recovering the grinding heat produced during ball milling, comprising the following steps:1.It showsFIG.Ball mill, a method for preparing fine metal powder, and fine metal powder prepared by the methodDE102010063239A1(en)*2010-12-162012-06-21Voith Patent Method for heat generation from exhaust air of paper-, cardboard-, tissue- or pulp production machine, involves conveying hot water as feed water to steam generator of power station and as steam over steam turbineUS20120292008A1(en)*2011-05-172012-11-22Michael GoldbergIntegrated energy recovery systemsFamily Cites Families (1)* Cited by examiner, † Cited by third partyPublication numberPriority datePublication dateAssigneeTitleUS3546787A(en)*1968-08-301970-12-15Fuller CoFluidized bed cooler20142014-12-22DEDE102014119345. Furthermore, it can be provided that the mill exhaust air is supplied to the heat exchanger with a temperature of at most 135, 130, 125 or 120 ° C in order to prevent boiling of the water to be heated in the heat exchanger with certainty.8Apatent/DE102014119345A1/enactivePending20152015-12-14EPEP15199754.3 passing the mill exhaust air supplied to the heat exchanger through the heat exchanger;1. In particular, this mill exhaust air usually has a temperature that can be used directly for heating water, without having to cool or heat the mill exhaust air before. 1is by the reference numeral 2, a ball mill, with the reference numeral 6, a fin heat exchanger and the reference numeral 9, a fireplace shown. Furthermore, it is preferably provided that the heat transfer from the mill exhaust air to the water in the heat exchanger takes place essentially without pressure, which is why the water to be heated should not be heated above its boiling point. Such a warming up of water by means of the grinding heat produced in a ball mill is accompanied by a special conservation of resources, since the water does not have to be heated with primary energy.The method according to the invention has proven to be particularly suitable if mill exhaust air from a ball mill in the form of a ball mill used for grinding cement clinker is used. 9From the adjusting means 5 performs an exhaust duct 11 in the form of a pipe directly to the chimney. The correspondingly heated water is then discharged via the Wasserausleitungsmittel 8 from the heat exchanger 6 and introduced into the tank truck 10. According to the invention, it has been found that this results in condensation of gaseous constituents of the mill exhaust air in the heat exchangercan be prevented.4 discharging the mill exhaust air from the heat exchanger;1.7 discharging the passed through the heat exchanger water from the heat exchanger. 9Furthermore, inFIG. This is in contrast to the use of process waste heat from many other industrial plants, which is often too high for direct heating of water, so that it must first be cooled to then heat water. The volume flow of the mill exhaust air supplied to the fin heat exchanger 6 is about 1,400 m 3 / min.After the tank of the tank truck 10 is filled with the heated to about 80 ° C water, the tank truck 10 can transport this water to the place of its destination.However, a significant proportion of industrial process heat remains unused. According to the invention, it has been found that the efficiency of heat transfer from the mill exhaust air to the water in the heat exchanger decreases when the temperature of the water rises above 50 ° C. Due to the aforementioned performance of the fin heat exchanger 6, a period of only about 8 hours is required for heating this water to a temperature of about 80 ° C.To carry out the method according to the invention, during milling in the ball mill 2, mill exhaust air from the ball mill 2 is first fed to the filter 4 via the line section 3a of the exhaust air supply means and then to the plate heat exchanger 6 via the line sections 3b, 3c of the exhaust air supply means. At the same time can be avoided by limiting the temperature of the mill exhaust air to 140 ° C, that it comes to boiling of the heated water in the heat exchanger, so that the inventive method can be carried out substantially without pressure.2 a heat exchanger (6), through which via the exhaust air supply means (3a, 3b, 3c) zulusbare mill exhaust air can be conducted;10.The invention is based on the surprising finding that the grinding heat produced during grinding in a ball mill is outstandingcan be recovered that this grinding heat can be used to heat water.Subsequently, water of another tank truck can be heated as above by the device 1.Incidentally, the components of the device according to the invention may be designed such that they are designed or suitable for carrying out the method according to the invention.It has proved to be effective for the heating of water by the method according to the invention if mill exhaust air having a volume of at least 500 m 3 / min (cubic meters per minute) is fed to the heat exchanger, that is also for example with a volume of at least 600, 700, 800, 900 or 1,000 m 3 / min.1Apatent/EP3037769A1/ennot_activeWithdrawnPatent Citations (5)* Cited by examiner, † Cited by third partyPublication numberPriority datePublication dateAssigneeTitleDE1920095A1(en)*1969-04-211970-10-22Westfalia Dinnendahl Groeppelgrinding plantDE29608816U1(en)*1996-05-151996-08-01Babcock Babcock Lentjes KraftwArrangement for the use of waste heat from cement clinker linesUS6196480B1(en)*1999-03-222001-03-06Fukuda Metal FoilPowder Co. Furthermore, it can be provided to transfer the heat from the mill exhaust air to the water to be heated by the heat exchanger with an energy of at most 1,000 kW, so for example with energy of at most 900, 800, 700, 600, 500 or 400 kW, as heat exchangers , in particular fin heat exchangers are usually designed for corresponding services and the inventive method is therefore readily feasible with heat exchangers according to the prior art.1 exhaust air supply means (3a, 3b, 3c), through which from the ball mill (2) discharged mill exhaust air to a heat exchanger (6) can be fed;10. The implementation of the method with the aforementioned volume flows is particularly advantageous even if the mill exhaust air has the aforementioned temperatures., Ltd.EP15199754.The invention relates to a method for heat recovery and a device for heat recovery. In particular, the invention is based on the object to provide a method and an apparatus available, can be recovered by the previously unused industrial process heat, especially for resource conservation.The inventive method can in particular be carried out in such a way and the heat exchanger according to the invention be designed such that heat is transferred by the heat exchanger from the mill exhaust air to the water to be heated with a power of at least 100 kW (kilowatts), so for example with a power of at least 150, 200, 250, 300, 350 or 400 kW.A method according to at least one of the preceding claims, wherein the mill exhaust air is discharged at a temperature not lower than 60 ° C from the heat exchanger. It is preferably provided that the water during the passage through the heat exchanger through the heat transferred from the mill exhaust air to the water to a temperature in the range of 50 to less than 100 ° C is heated.18 kJ / kg K, therefore, by the inventive method at a power of, for example, 200 kW as described above, 20 m 3 (cubic meters) of water in about 4 h 4 min of 15 ° C. 1is a generally designated by the reference numeral 1 device for recovering the resulting during grinding in a ball mill grinding heat represented by which the inventive method is feasible. At the same time caused by these rubbing and pushing movements a considerable grinding heat, so that the gas atmosphere in the grinding chamber - essentially air - is heated by this grinding heat and forms a warm to hot mill exhaust air.The water fed to the finned heat exchanger 6 has a temperature of about 15 ° C and is heated to about 80 ° C during the passage through the finned heat exchanger 6.The finned heat exchanger 6 is designed such that by this heat from the guided through the fin heat exchanger 6Mill exhaust air is transferred to the guided through the fin heat exchanger 6 water. Heat is now transferred from the mill exhaust air to the water in the fin heat exchanger 6.1A2014-12-222015-12-14Method for recovering heat and a device for heat recoveryWithdrawnEP3037769A1(en)Priority Applications (1)Application NumberPriority DateFiling DateTitleDE102014119345. According to the invention, this mill exhaust air produced in a ball mill is now used in the process of the invention for heating water.6 Wasserausleitungsmittel (8), through which by the heat exchanger (6) passed water from the heat exchanger (6) can be diverted. Through this friction andPushing movements are comminuted in the grinding chamber located regrind.Further, the heated water in the fin heat exchanger 6 is discharged through the Wasserausleitungsmittel 8 from the fin heat exchanger 6 and returned to the tank truck 10.Method according to at least one of the preceding claims, wherein the mill exhaust air is supplied to the heat exchanger at a temperature in the range of 80 to 140 ° C. from the heat exchanger.Method according to at least one of the preceding claims, in which the mill exhaust air is cooled during passage through the heat exchanger to a temperature not lower than 40 ° C.It may further be provided that the mill exhaust discharged from the ball mill is cleaned, in particular before it is fed to the heat exchanger., Ltd.1AWithdrawnEP3037769A1(en)2014-12-222015-12-14Method for recovering heat and a device for heat recoveryCountry Status (2)CountryLinkEP(1)EP3037769A1(en)DE(1)DE102014119345A1(en)Cited By (1)* Cited by examiner, † Cited by third partyPublication numberPriority datePublication dateAssigneeTitleCN106269091A(en)*2016-08-182017-01-04佛山欧神诺陶瓷股份有限公司A kind of system and method utilizing cooling water to improve grinding efficiencyCitations (5)* Cited by examiner, † Cited by third partyPublication numberPriority datePublication dateAssigneeTitleDE1920095A1(en)*1969-04-211970-10-22Westfalia Dinnendahl Groeppelgrinding plantDE29608816U1(en)*1996-05-151996-08-01Babcock Babcock Lentjes KraftwArrangement for the use of waste heat from cement clinker linesUS6196480B1(en)*1999-03-222001-03-06Fukuda Metal FoilPowder Co.The invention further provides a device on which in particular the method according to the invention can be carried out, with the following features:Exhaust air supply means through which mill exhaust discharged from a ball mill can be supplied to a heat exchanger;a heat exchanger through which the mill exhaust air which can be supplied via the exhaust air supply means can be conducted;Exhaust air discharge means, through which the mill exhaust air can be diverted from the heat exchanger;Water supply means through which water is fed to the heat exchanger;the heat exchanger is designed in such a way that water supplied to the heat exchanger via the water supply means can be conducted through the heat exchanger in such a manner that heat can be transferred from the mill exhaust air routed through the heat exchanger to the water;Water discharge, through which water passed through the heat exchanger can be diverted from the heat exchanger.Method according to at least one of the preceding claims, in which the mill exhaust air discharged from the ball mill is cleaned.3 exhaust air discharge means (12) through which the mill exhaust air from the heat exchanger (6) can be diverted;10.Against this background, the object of the invention is to provide a method and a device by means of which process heat, in particular industrial process heat, can be recovered. Heat to 85 ° C.In order not to have to guide the mill exhaust air for the time interval between such heating of water through the fin heat exchanger 6, the adjusting means 5 is provided, which can direct the filtered mill exhaust directly to the exhaust duct 11.As is known, a ball mill is a grinding unit for grinding regrind.2012An experimental comparison of two heat exchangers used in wastewater source heat pump: A novel dry-expansion shell-and-tube evaporator versus a conventional immersed evaporatorDE102011052561A1(en)2012-11-29Method and device for burning clinkerCN102410527A(en)2012-04-11Composite phase change heat exchanger for flue gas heat recovery of boilerEA200700361A1(en)2007-08-31Heat-exchange apparatus with means of recycling of cleaning particlesRU2412358C1(en)2011-02-20Plant for preparing make-up water of combined electric power-and-heat generating plant with open heat-extraction systemUS20150352607A1(en)2015-12-10Method and system for treating kegsCN201866787U(en)2011-06-15Heat transfer oil furnace waste heat high-efficiency recycle device with phase-change heat exchangerCN203082865U(en)2013-07-24Heating network heater drain water recovery device of supercritical heating supply setCN205036418U(en)2016-02-17Industry waste heat recovery of cogeneration of heat and power utilizes systemLegal EventsDateCodeTitleDescription2016-06-29AVRequest for validation of the european patent inExtensionstate:MA MD.It has proven to be particularly advantageous if the mill exhaust air is supplied to the heat exchanger at a temperature in the range of 80 to 140 ° C. 1illustrated water supply means 7 and water discharge means 8 in the form of tubes and a tank vehicle 10thBy the water supply means 7 is cold water from the tanker 10 the Lammellenwärmetauscher 6 zuleitbar and via the Wasserausleitungsmittel 8 through the finned heat exchanger 6 passed water from the finned heat exchanger 6 and zurückleitbar in the tanker 10.1 discharging the mill exhaust air from the ball mill which results during grinding in a ball mill;1. In particular, a heat recovery of process heat, in particular industrial process heat may be desired, since this is regularly obtained in numerous industrial plants on a large scale.In principle, an arbitrary heat exchanger according to the prior art can be provided for carrying out the method according to the invention, by which heat can be transferred indirectly from a gaseous medium (here: mill exhaust air) to a liquid medium (here: water) by means of indirect heat transfer. 6From the finned heat exchanger 6 performs a Abluftausleitungsmittel 12 in the form of a pipe to a finned heat exchanger 6 downstream of the fireplace. Since mill exhaust from mill mills for grinding cement clinker regularly has a temperature in the range of 80 to 140 ° C, the use of such mill exhaust air for the inventive method is particularly advantageous.4 water supply means (7) through which water to the heat exchanger (6) can be fed;10.An embodiment of the invention will be explained in more detail with reference to the following description of the figures.It has also proved to be advantageous in this case that the mill exhaust air produced as a result of the grinding heat in a ball mill has a temperature which is particularly suitable for heating water. In this respect, it may also be provided, for example, to discharge the mill exhaust air at a temperature not below 65, 70 or 75 ° C. For example, the heat generated in industrial furnaces waste heat for heating purposes is regularly recovered, for example, to preheat to be heated Ofengut. Furthermore, it may be advantageously provided to limit the volume of the mill exhaust air supplied to the heat exchanger to at most 3,000 m 3 / min, since heat exchangers, in particular fin heat exchangers are usually designed for corresponding volume flows and the inventive method therefore readily with heat exchangers according to the prior art is feasible.The adjusting means 5 is designed in such a way that, by means of this mill exhaust air fed through the line section 3b of the exhaust air supply means, it can optionally be fed to the line section 3c of the exhaust air supply means or the exhaust air duct means 11. Such a cleaning can be done in particular by filtering the mill exhaust air, so that the mill exhaust air is passed through a filter or a filter system.Apparatus for recovering the milling heat produced during ball milling, comprising the following features:10. Rather, in the context of the method according to the invention is not yetdeveloped energy source, namely warm mill exhaust air from a ball mill, used, which was previously discharged substantially unused from a ball mill and passed into the atmosphere. Since the specific heat capacity of water is about 4. Overall, the fin heat exchanger of tanker 10 about 27 m 3 of water at a temperature of about 15 ° C supplied. Furthermore, it has been found to be advantageous that the mill exhaust air from ball mills has substantially no aggressive constituents, so that the process technology for heating water by ball mill exhaust air is particularly easy to design.Ball mill, a method for preparing fine metal powder, and fine metal powder prepared by the methodDE102010063239A1(en)*2010-12-162012-06-21Voith Patent Method for heat generation from exhaust air of paper-, cardboard-, tissue- or pulp production machine, involves conveying hot water as feed water to steam generator of power station and as steam over steam turbineUS20120292008A1(en)*2011-05-172012-11-22Michael GoldbergIntegrated energy recovery systemsNon-Patent Citations (1)* Cited by examiner, † Cited by third partyTitleNoneCited By (2)* Cited by examiner, † Cited by third partyPublication numberPriority datePublication dateAssigneeTitleCN106269091A(en)*2016-08-182017-01-04佛山欧神诺陶瓷股份有限公司A kind of system and method utilizing cooling water to improve grinding efficiencyCN106269091B(en)*2016-08-182018-07-24佛山欧神诺陶瓷股份有限公司A kind of system and method improving grinding efficiency using cooling waterAlso Published AsPublication numberPublication dateDE102014119345A1(en)2016-06-23Similar DocumentsPublicationPublication DateTitleKR100805385B1(en)2008-02-25Method of and apparatus for producing powerCN101195766B(en)2010-10-13Coal gas anhydrous dust collecting equipment of revolving furnace and technique thereofRU2013113041A(en)2014-09-27Method for pressure reset of a nuclear power plant, pressure release system for a nuclear power plant, and also the appropriate nuclear power plantCN101641462B(en)2011-12-14Flue gas cooling and cleaning systemCN204757712U(en)2015-11-11Electric stove flue gas processing systemCN104048284B(en)2016-04-06The method of high-temp solid heat recovery waste heat boiler and recovery waste heatUS10260808B2(en)2019-04-16Carbon dioxide productionCN201255500Y(en)2009-06-10Sewage waste heat recovery heat pump water heaterWO2011020334A1(en)2011-02-24System for recovering waste heat from flue gasEP0192862A1(en)1986-09-03Furnace heat exchangerCN103509564B(en)2016-01-13A kind of heat exchange type ascending tube and coke ovenCN101245400B(en)2010-07-21Recycling of coal gas of steel-smelting revolving furnace with dry method and sensible heat power generation systemCN102435077A(en)2012-05-02Process and device for waste heat recycling and efficiency power generation of metallurgy waste heat gasUS20110232696A1(en)2011-09-29Compact radiator-based heat exchangerSG176966A1(en)2012-02-28Device for recovering heat from wastewater, thermal system including such a device, and methodCN103033039B(en)2013-11-27Rotary cement kiln surface heat recycling device with temperature regulation functionShen et al. As is known, cement clinker is regularly ground into cement in ball mills.5 supply of water in the heat exchanger;1. The canFlows of these media are carried in the heat exchanger in the DC, countercurrent or cross flow.The water to be heated in the heat exchanger by the warm mill exhaust air is preferably fed to the heat exchanger at a temperature in the range from above 0 to 30 ° C.To achieve this object, the invention provides a method for recovering the grinding heat produced during grinding in a ball mill, comprising the following steps:Discharging the mill exhaust air from the ball mill resulting from grinding in a ball mill;Feeding the mill exhaust discharged from the ball mill into a heat exchanger;Passing the mill exhaust air supplied to the heat exchanger through the heat exchanger;Discharging the mill exhaust air from the heat exchanger;Supplying water into the heat exchanger;Passing water through the heat exchanger such that heat is transferred from the mill exhaust air routed through the heat exchanger to the water;Discharging the water passed through the heat exchanger from the heat exchanger.Method according to at least one of the preceding claims, in which the water is fed to the heat exchanger at a temperature in the range of0 to 30 ° C.2 feeding the mill exhaust discharged from the ball mill into a heat exchanger;1. To be able to exclude a condensation in the heat exchanger with even greater certainty, it can be provided that the mill exhaust air is cooled during passage through the heat exchanges to a temperature not less than 45 or not below 50 ° C.The filter 4 is designed such that can be filtered by this dust-like particles from the mill exhaust air of the ball mill 2.According to the invention it can be provided in particular that the mill exhaust air is cooled during passage through the heat exchanger to a temperature of not less than 40 ° C. As a result, a particularly effective transfer of heat to the water can be achieved. 1a flow diagram of the method according to the invention. Such a cleaning of the mill exhaust air can prevent solid constituents of the mill exhaust air, in particular dusts, from settling in the heat exchanger and thus adversely affecting its functionality.Process according to claim 1, comprising a ball mill in the form of a ball mill used for grinding cement clinker.In the flow chart according toFIG.Method according to at least one of the preceding claims, wherein the water passes through the heat exchanger through the mill exhaust air to the water during passage through the heat exchangertransferred heat to a temperature in the range of 50 to100 ° C is heated. In this case, a ball mill has a generally cylindrical or tubular grinding chamber, which is filled with spherical or cylindrical grinding bodies in the rule. Further, the finned heat exchanger 6 is simultaneously supplied via the line section 7 of the water supply means from the tanker 10 water. Mill exhaust air having a temperature in this temperature interval, on the one hand, has a heat on the basis of which water can be effectively heated by the method according to the invention. According to the invention, it has been found that a heat transfer from the mill exhaust air to cold water can be carried out particularly effectively in such a fin heat exchanger. As a result, condensation of gaseous constituents of the mill exhaust air in the chimney, which may be connected downstream of the heat exchanger, can be avoided. Further, the water supply and discharge means may be any of those known in the art for conducting water, such as pipes, hoses, and similar conduit means. Particularly preferred for carrying out the method according to the invention, a heat exchanger is provided in the form of a fin heat exchanger. In that regard, recourse can be had to the components known from the prior art for this purpose.InFIG. The ball mill 2 is fluidly connected via exhaust air supply means 3a, 3b, 3c in the form of tubes with the fin heat exchanger 6, that through this exhaust air supply means 3a, 3b, 3c from the ball mill 2 discharged mill exhaust air is fed to the fin heat exchanger 6.Further features of the invention will become apparent from the dependent claims, the figure and the associated description of the figures.To conserve resources and for financial reasons, heat recovery is often desired. The ball mill 2 is first connected via a first line section 3a of the exhaust air supply means with a downstream of the ball mill 2 downstream filter 4.The performance of the fin heat exchanger 6 is about 250 kW. In order to carry out the heat transfer from the mill exhaust air to the water even more efficiently, it can be provided that the exhaust air exhaust the heat exchanger at a temperature ofat least 85, 90, 95, 100, 105 or 110 ° C. A fluidically connected downstream of the filter line section 3b of the exhaust air supply leads first to an actuating means 5 and from this a third further line section 3c of the exhaust air supply means to the adjusting means 5 fluidically downstream fin heat exchanger.5 of the heat exchanger (6) is designed such that via the water supply means (7) the heat exchanger (6) zugeleitetes water through the heat exchanger (6) is conductive, that heat from the through the heat exchanger (6) conducted mill exhaust air transferable to the water is;10.The exhaust air supply means and the exhaust air discharge means may be the means for guiding mill exhaust air known in the art, such as pipes, chimneys and the like conduit means. For grinding, the grinding chamber is set in rotation, so that the grinding bodies exert shock and friction against each other and against the wall of the grinding chamber.8ADE102014119345A1(en)2014-12-222014-12-22Method for heat recovery and a device for heat recoveryPublications (1)Publication NumberPublication DateEP3037769A1true EP3037769A1(en)2016-06-29FamilyID=55024773Family Applications (1)Application NumberTitlePriority DateFiling DateEP15199754.The inventive method is thus obtained from cold water hot or hot water, without having to raise additional energy, especially primary energy for its heating.

5, so they are fairly abrasive, and the use in thermoplastics is limited to few applications like antiblocking in polyolefin filmsand lately also as a filler for dental composites.Mohs hardness of feldspars and nepheline syenite is in the region of 6–6.

4. It is then stoppedand the product is discharged. During grinding, balls themselves wear and arecontinuosly replaced by new ones so that mill containballs of various ages and thus of various ages andthus of various sizes Ball mill produces 1 to 50 tonn/hr of powder of which70 to 90 % will pass through a 200 mesh screen andenergy requirment of the ball mill is about 16kwh/tonn In case of a batch operated mill a measured quantityof a solid to be ground is charged to the mill throughthe opening in the shell. The opening is closed andthe mill is rotated for several hours.

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