CN100369634C

CN100369634C - Combined energy-saving disinfecting kettle and energy-saving method and same

Info

Publication number: CN100369634C
Application number: CNB031583717A
Authority: CN
Inventors: 林刚毅; 郭寅生
Original assignee: Individual
Current assignee: Individual
Priority date: 2003-09-26
Filing date: 2003-09-26
Publication date: 2008-02-20
Anticipated expiration: 2023-09-26
Also published as: CN1528465A

Abstract

The present invention relates to a chemical device, more specifically a sterilizing kettle capable of fully utilizing heat energy and a method for utilizing the sterilizing kettle to save energy. The present invention has the design scheme that each pressure vessel has at least two cylinders, and the cylinders of the pressure vessels are connected with each other through pipes and corresponding control valves. Each of the cylinders is connected with an inlet and an outlet of a water pump through pipes, and corresponding stop valves are arranged on the pipes. The cylinders are connected with a high temperature and high pressure vapor source and a compressed air source through pipes, and corresponding stop valves are arranged on the pipes. Heat exchange or direct heating can be utilized to lead the residual heat of one pressure vessel in a cooling period to one pressure vessel in a temperature rise period to utilize the residual heat, the temperature of the pressure vessel needing cooling is decreased, and the temperature of the pressure vessel needing warming is increased, so that the energy saving purpose is achieved.

Description

A kind of combined energy-saving Sterilization Kettle and utilize this Sterilization Kettle method for saving energy

Technical field

The present invention relates to chemical industry equipment, specifically a kind ofly can make full use of the Sterilization Kettle of heat energy and utilize this Sterilization Kettle method for saving energy.

Background technology

There is a certain amount of water its bottom of traditional Sterilization Kettle, the medium with as heating of still internal recycle or cooling the time.After filling the infusion products that needs sterilization in the still, the door of Sterilization Kettle is closed and locked, start water pump, water is sprayed onto each corner in the Sterilization Kettle equably, feed high steam, allow steam that the infusion products of water and needs sterilization is heated equably, and the importing compressed air, with the pressure reduction inside and outside control infusion products when sterilization bottle, reach design temperature after, insulation a period of time, begin cooling then.The method of its cooling is: close high steam, high-temperature water in the pump handle Sterilization Kettle is pressed into heat exchanger, reduces water temperature by heat exchanger, removes to cool off the interior infusion products of Sterilization Kettle with the water after the cooling, during this period, keep suitable still internal pressure, progressively the cooling, reach design temperature after, water pump quits work, the Sterilization Kettle release pressure is opened Sterilization Kettle, has so far finished a sterilising cycle.

Outside the deficiency that traditional Sterilization Kettle exists be: after high temperature sterilize reaches the setting requirement, when beginning to lower the temperature, need a large amount of cooling waters that Sterilization Kettle is lowered the temperature, both wasted water, wasted heat energy again, cooling water has been taken away a large amount of heat energy and can't have been recycled.

Summary of the invention

The objective of the invention is to design a kind of combined energy-saving Sterilization Kettle and utilize this Sterilization Kettle method for saving energy, to make full use of heat energy.

According to design provided by the invention, the cylindrical shell of pressure vessel has two at least, and the cylindrical shell of each pressure vessel utilizes pipeline and control corresponding valve to interconnect; On each cylindrical shell, utilize pipeline to be connected with outlet respectively, on cylindrical shell, utilize pipeline to be connected, corresponding stop valve is set on pipeline with high temperature and high pressure steam source and compressed air source with the import of water pump.

Relief valve and discharging valve are set respectively on cylindrical shell.Be connected heat exchanger and stop valve on the pipeline between the outlet of water pump and cylindrical shell, the other end of heat exchanger utilizes pipeline to be connected with cylindrical shell respectively, and on pipeline corresponding stop valve is set.Water pump quantity is identical with cylindrical shell quantity.

A kind of combined energy-saving Sterilization Kettle method for saving energy of utilizing, it is characterized in that: on the cylindrical shell of each pressure vessel, utilize pipeline and stop valve to be connected with compressed air source with the high temperature and high pressure steam source respectively with the import and export of water pump, when one of them Sterilization Kettle begins to heat up sterilization, another Sterilization Kettle can begin to feed in raw material, when previous Sterilization Kettle reaches design temperature, when needing to lower the temperature after being incubated a period of time by setup program, utilize water pump that the hot water in the previous Sterilization Kettle is flowed to a back Sterilization Kettle that has added material, needed intensification as heating agent.When previous Sterilization Kettle has been reduced to room temperature, the discharging of can opening the door of this previous Sterilization Kettle, carry out then the 2nd time reinforced.Reach design temperature at a back Sterilization Kettle, after insulation, utilize water pump that the hot water in the back Sterilization Kettle is flowed to the previous Sterilization Kettle that adds material, needs intensification as heating agent, so move in circles.

The present invention is by exchange heat or direct heating, the waste heat that one of them can be in the pressure vessel of cooling stage is directed to another and is in the pressure vessel of temperature rise period and is used, make the pressure vessel cooling that needs cooling, the temperature of the pressure vessel that need heat raises, thereby reaches purpose of energy saving.

Description of drawings

Fig. 1 is a schematic diagram of the present invention.

The specific embodiment

As shown in the figure: the cylindrical shell of pressure vessel has two at least, and the cylindrical shell of each pressure vessel utilizes pipeline and control corresponding valve to interconnect, and utilizes pipeline to be connected with outlet with the import of water pump on each cylindrical shell respectively, and on pipeline corresponding stop valve is set.On cylindrical shell, utilize pipeline to be connected, corresponding stop valve is set on pipeline with high temperature and high pressure steam source and compressed air source.On cylindrical shell, also relief valve and discharging valve should be set respectively.Be connected heat exchanger and stop valve on the pipeline between the outlet of water pump and cylindrical shell, the other end of heat exchanger utilizes pipeline to be connected with cylindrical shell respectively, and on the pipeline corresponding stop valve is set.The quantity of described water pump should be identical with the quantity of cylindrical shell.

The operation principle of combined energy-saving Sterilization Kettle is as follows:

The combination type Sterilization Kettle is to utilize the pipeline organic assembling to form by at least two traditional common Sterilization Kettles.The combination type Sterilization Kettle is the same with traditional Sterilization Kettle, and there is a certain amount of water its bottom, the medium with as heating of still internal recycle or cooling the time.

After filling the infusion products that needs sterilization in the Sterilization Kettle 14, the door of Sterilization Kettle is closed and locked, start water pump 19, water enters Sterilization Kettle 14 by stop valve 3, water is sprayed onto each corner in the Sterilization Kettle 14 equably, stop valve 9 energisings, import high steam, allow high-temperature steam the water in the Sterilization Kettle and need the infusion products of sterilization to heat equably, stop valve 11 energisings simultaneously import compressed air, the inside and outside pressure reduction of bottle (bag) during with the sterilization of control infusion products, after reaching design temperature, insulation a period of time, reach and begin cooling behind the official hour.

When Sterilization Kettle 14 carries out sterilizing works, can pack into the article of needs sterilizations of Sterilization Kettle 13, load finish after, the door of Sterilization Kettle is closed and is locked.

The method of Sterilization Kettle 14 coolings is: stop valve 9 dead electricity, close the high steam of Sterilization Kettle 14, the make-and-break time of control stop valve 11, keep suitable still internal pressure, start water pump 20, stop valve 7 gets electric, stop valve 8, normal-temperature water is pressed into Sterilization Kettle 14, be sprayed onto each corner in the Sterilization Kettle 14 equably, article in the Sterilization Kettle 14 are lowered the temperature, meanwhile stop valve 3 gets, block the passage that water pump 19 enters Sterilization Kettle 14, stop valve 4 gets electric, gets through the passage of water pump 19 to Sterilization Kettle 13, and water pump 19 is pressed into Sterilization Kettle 13 to high-temperature water, be sprayed onto each corner in the Sterilization Kettle 13 equably, need the article of sterilization to heat Sterilization Kettle 13.Meanwhile stop valve 12 must be electric, connects the passage that compressed air enters Sterilization Kettle 13, to keep suitable still internal pressure, circulation so constantly, temperature in the Sterilization Kettle 14 constantly reduces, and the temperature in the Sterilization Kettle 13 constantly raises, when the temperature in the Sterilization Kettle 14 drops to design temperature, water pump 19 quits work, stop valve 11 dead electricity are cut off the passage that compressed air enters Sterilization Kettle 14, Sterilization Kettle 14 release pressures, open Sterilization Kettle 14, take out the article of the bacterium of having gone out.

At this moment, water pump 20 is sprayed onto each corner in the Sterilization Kettle to water equably by stop valve 8, high steam enters Sterilization Kettle 13 by stop valve 10, steam is water and need the infusion products of sterilization to heat equably, stop valve 12 still be in electricity condition, compressed air enters Sterilization Kettle 13 by stop valve 12, the inside and outside pressure reduction of bottle (bag) during with the sterilization of control infusion products, after reaching design temperature, insulation a period of time, begin cooling then.When Sterilization Kettle 13 carries out sterilizing works, can pack into the article of needs sterilizations of Sterilization Kettle 14, load finish after, the door of Sterilization Kettle is closed and is locked.

The method of Sterilization Kettle 13 cooling is: stop valve 10 dead electricity, close the high steam of Sterilization Kettle 13.The make-and-break time of control stop valve 12 is to keep suitable still internal pressure, start water pump 19, stop valve 4, normal-temperature water is pressed into Sterilization Kettle 13, be sprayed onto each corner in the Sterilization Kettle 13 equably, utilize water pump 20 that high-temperature water is pressed into Sterilization Kettle 14 at the same time, be sprayed onto each corner in the Sterilization Kettle 14 equably, the article that need in the Sterilization Kettle 14 to sterilize are heated up.

Circulation so constantly, temperature in the Sterilization Kettle 13 constantly reduces, temperature in the Sterilization Kettle 14 constantly raises, when the temperature in the Sterilization Kettle 13 dropped to design temperature, water pump 20 quit work, stop valve 12 dead electricity, the cut-out compressed air enters the passage of Sterilization Kettle 13, Sterilization Kettle 13 release pressures are opened Sterilization Kettle 13, take out the article of the bacterium of having gone out.And Sterilization Kettle 14 has so far been finished a complete production cycle in the work of carrying out next round at this moment.

Relief valve 1, relief valve 2 are respectively applied for Sterilization Kettle 14 and Sterilization Kettle 13 protection systems, prevent that overload from meeting accident.Stop valve 1, stop valve 2, stop valve 5, stop valve 6 and heat exchanger can be used for the acceleration cooling of Sterilization Kettle 14 and Sterilization Kettle 13.When Sterilization Kettle 14 needed to quicken cooling, stop valve 3 got electric, cut off water pump 19 and entered Sterilization Kettle 14 passages, stop valve 5 electric, make the water of water pump 19 enter heat exchanger and cool off fast, stop valve 1, connect the passage that water pump 19 enters Sterilization Kettle 14, make Sterilization Kettle 14 cool off fast.

When Sterilization Kettle 13 needed to quicken cooling, stop valve 4 got electric, cut off water pump 20 and entered Sterilization Kettle 13 passages, stop valve 6 electric, make the water of water pump 20 enter heat exchanger and cool off fast, stop valve 2, connect the passage that water pump 20 enters Sterilization Kettle 13, make Sterilization Kettle 13 cool off fast.Discharging valve 1, discharging valve 2 are respectively applied for unnecessary water in discharging Sterilization Kettle 14 and the Sterilization Kettle 13.

The energy-saving principle of combination type Sterilization Kettle is: can make full use of the waste heat in the sterilization process, need help the Sterilization Kettle heating of heating.When the temperature that reaches setting when Sterilization Kettle 14 need be lowered the temperature, can import to the waste heat of Sterilization Kettle 14 in the Sterilization Kettle 13, help Sterilization Kettle 13 to heat.And when the temperature that Sterilization Kettle 13 reaches setting need be lowered the temperature, can the waste heat of Sterilization Kettle 13 be imported in the Sterilization Kettle 14, help Sterilization Kettle 14 to heat.Utilize the time difference of Sterilization Kettle 14 and Sterilization Kettle 13 work, carry out cross-operation, reach the purpose that makes full use of waste heat.

Example: the energy-conservation Sterilization Kettle of binary, long 7m, diameter 1.9m, two each water 1700kg of cylindrical shell, two cylindrical shells respectively can be adorned 5400 bottles in 500ml bottle (being roughly equal to 2700kg).Consider that conduction of heat needs certain temperature difference, the temperature of setting the heat release Sterilization Kettle just stops the heat exchange of two Sterilization Kettles during than high 5 ℃ of the temperature of heat absorption Sterilization Kettle, with cooling water directly for needing the Sterilization Kettle cooling of cooling, to shorten sterilising cycle.The Sterilization Kettle steam direct heating that needs are heated up simultaneously.Setting sterilising temp is 110 ℃, and initial temperature is 30 ℃ in the Sterilization Kettle.Then a sterilising cycle (10800 bottles) can be directly energy-conservation 40% during continuous production, and the heat energy of saving is 286000kcal/h, is equivalent to 332kw/ hour.If these waste heats are not utilized, also need consume the requirement that a large amount of cooling waters could drop to temperature setting.The promptly actual heat energy of saving can reach 286000kcal/h * 2=572000kcal/h, is equivalent to 332kw/ hour * 2=664kw/ hour.

Though the title of this paper is a Sterilization Kettle, but this technology is applicable to the numerous pressure vessels that need finish the work under high temperature, high pressure, as chemical industry, spin the pressure vessel of industries such as worker, medicine, food, therefore, the alleged Sterilization Kettle of this paper should be contained pressure vessel used in these industries.

Claims

1. combined energy-saving Sterilization Kettle, it is characterized in that: the cylindrical shell of pressure vessel has two at least, and the cylindrical shell of each pressure vessel utilizes pipeline and control corresponding valve to interconnect; And on each cylindrical shell, utilize pipeline to be connected with outlet respectively, on cylindrical shell, utilize pipeline to be connected, corresponding stop valve is set on pipeline with high temperature and high pressure steam source and compressed air source with the import of water pump.

2. Sterilization Kettle as claimed in claim 1 is characterized in that: relief valve and discharging valve are set respectively on cylindrical shell.

3. Sterilization Kettle as claimed in claim 1 is characterized in that: be connected heat exchanger and stop valve on the pipeline between the outlet of water pump and cylindrical shell, the other end of heat exchanger utilizes pipeline to be connected with cylindrical shell respectively, and on the pipeline corresponding stop valve is set.

4. as claim 1 or 3 described Sterilization Kettles, it is characterized in that: the quantity of water pump is identical with the quantity of cylindrical shell.

5. one kind is utilized combined energy-saving Sterilization Kettle method for saving energy, it is characterized in that: on the cylindrical shell of each pressure vessel, utilize pipeline and stop valve to be connected with compressed air source with the high temperature and high pressure steam source respectively with the import and export of water pump, when one of them Sterilization Kettle begins to heat up sterilization, another Sterilization Kettle can begin to feed in raw material, when previous Sterilization Kettle reaches design temperature, when needing to lower the temperature after being incubated a period of time by setup program, utilize water pump that the hot water in the previous Sterilization Kettle is flowed to a back Sterilization Kettle that has added material, needed intensification as heating agent; When previous Sterilization Kettle has been reduced to room temperature, the discharging of can opening the door of this previous Sterilization Kettle, carry out then the 2nd time reinforced; Reach design temperature at a back Sterilization Kettle, after insulation, utilize water pump that the hot water in the back Sterilization Kettle is flowed to the previous Sterilization Kettle that adds material, needs intensification as heating agent, so move in circles.