CN111780470A - Energy-saving water-cooling process - Google Patents

Abstract

The invention discloses an energy-saving water-cooling process, which comprises the steps of firstly installing a water pumping device at a proper position, then installing a cooling device on the ground, then connecting the water pumping device and the cooling device through a pipeline, then communicating a water outlet device with the cooling device, communicating the water outlet device with a cooling pipe in a working device, and then conveying the heat-exchanged cooling water heated to a hot water recovery tank. By adopting the cooling process designed by the invention, the working equipment can be rapidly cooled, the cooling water can be recycled, the energy is saved, the environment is protected, the cooling operation can be carried out by adopting river water or underground water according to local conditions, the heated cooling water can be adopted to spray the surface of the working equipment in the cooling process, the cooling effect is ensured, the moisture preservation operation can be carried out on the working equipment, the crack of the working equipment is avoided, and the service life of the working equipment is prolonged.

Description

Energy-saving water-cooling process

Technical Field

The invention relates to the technical field of cooling processes, in particular to an energy-saving water-cooling process.

Background

The water-cooling heat dissipation is widely applied as a heat dissipation method, a large amount of heat can be quickly consumed through water cooling to achieve the purpose of heat dissipation, the existing water-cooling heat dissipation is mostly carried out through heat transfer, the heat dissipation effect on some objects with low heat transfer efficiency is poor, and the general water-cooling heat dissipation can not carry out moisture-keeping heat dissipation on the objects needing heat dissipation, so that the surface of working equipment is too dry, cracks are generated, and the service life of the equipment is shortened.

Disclosure of Invention

The invention aims to provide an energy-saving water-cooling process, which has the advantage of high temperature and solves the problems that the existing water-cooling process cannot quickly dissipate heat and cannot moisturize and dissipate heat of a required heat dissipating object, so that the surface of working equipment is too dry and cracks appear, and the service life of the equipment is shortened.

In order to achieve the purpose, the invention provides the following technical scheme: an energy-saving water-cooling process comprises the following steps:

installation of equipment:

firstly, the water pumping equipment is installed at a proper position, then the cooling equipment is installed on the ground, then the water pumping equipment is connected with the cooling equipment through a pipeline, then the water outlet equipment is communicated with the cooling equipment, the water outlet equipment is communicated with a cooling pipe in the working equipment, then the cooling water heated after heat exchange is conveyed to a hot water recovery tank, and then all the equipment are connected with a control terminal.

And (II) commissioning of the system:

judging whether the pressure at each pressure sensor is in a safety range or not by comparing the received equipment pressure information with a set pressure regulation limiting range through a control terminal, and regulating the pressure if the pressure exceeds the upper limit and the lower limit of the pressure regulation; if the temperature exceeds the upper limit and the lower limit of the overpressure shutdown, the shutdown is carried out, meanwhile, the control terminal judges whether the temperature at each temperature sensor is in a reasonable temperature range or not by comparing the received temperature information of the equipment with a set reasonable temperature region, and if the temperature exceeds the upper limit and the lower limit of an ideal temperature region, the temperature is adjusted; and if the upper limit of the overtemperature shutdown is exceeded, the shutdown is carried out.

And (III) cooling operation:

the system comprises a control terminal, a water pumping device, a cooling device, a temperature detection device and a control device, wherein the control terminal is used for controlling the temperature of the cooling device, the control terminal is used for controlling the operation of the cooling device, the control terminal is used for setting operation parameters of the device, then the water in a river is pumped into the cooling device through the water pumping device, then the water entering the device is cooled through the cooling device, and then the cooled water is conveyed to a cooling pipe in the working device through a pipeline for heat exchange operation, so that the cooling operation is realized, the temperature of the working device is detected through the temperature detection device, and if obvious.

Preferably, the cooling device of the first step comprises a water storage tank, a condenser, a cooling fan, cooling fins and a cooling pipe, wherein the condenser is installed in an inner cavity of the water storage tank, water in the water storage tank is cooled through the condenser, the cooling fan and the cooling fins are installed on the surface of the working device to actively dissipate heat of the working device, and the cooling pipe is made of copper-aluminum alloy.

Preferably, the pipeline surface in step one is wrapped up in thermal-insulated heat preservation cotton, to avoiding the intensification of water at the in-process of carrying the cooling water, has guaranteed the radiating effect, installs solenoid valve at the node of each pipeline, realizes automatic switch, installs the pressure gauge on each operating equipment, and real-time detection operating pressure guarantees work safety, installs temperature detector on operating equipment, realizes the function of accurate accuse temperature.

Preferably, the cooling water after the cooling and heat exchange work in the step two is conveyed to a hot water recovery tank for storage, the hot water in the recovery tank can be discharged through a pipeline, the discharged water can be used for the bathing water of the staff, the surface of the hot water recovery tank is specially communicated with a pipeline to be connected with a spray head, the surface of the working equipment is specially sprayed with water for cooling, and the damage to the working equipment is avoided when the water is sprayed.

Preferably, pumping equipment is provided with the filter screen at the income water end department, can be preliminary filter the water of extraction, then the water input after the preliminary filtration is to the holding water tank, carries out further filtration and sterilization in the holding water tank, then can the suction in to the holding water tank.

Compared with the prior art, the invention has the following beneficial effects:

by adopting the cooling process designed by the invention, the working equipment can be rapidly cooled, the cooling water can be recycled, the energy is saved, the environment is protected, the cooling operation can be carried out by adopting river water or underground water according to local conditions, the heated cooling water can be adopted to spray the surface of the working equipment in the cooling process, the cooling effect is ensured, the moisture preservation operation can be carried out on the working equipment, the crack of the working equipment is avoided, and the service life of the working equipment is prolonged.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a technical scheme that: an energy-saving water-cooling process comprises the following steps:

installation of equipment:

firstly, the water pumping equipment is installed at a proper position, then the cooling equipment is installed on the ground, then the water pumping equipment is connected with the cooling equipment through a pipeline, then the water outlet equipment is communicated with the cooling equipment, the water outlet equipment is communicated with a cooling pipe in the working equipment, then the cooling water heated after heat exchange is conveyed to a hot water recovery tank, and then all the equipment are connected with a control terminal.

And (II) commissioning of the system:

judging whether the pressure at each pressure sensor is in a safety range or not by comparing the received equipment pressure information with a set pressure regulation limiting range through a control terminal, and regulating the pressure if the pressure exceeds the upper limit and the lower limit of the pressure regulation; if the temperature exceeds the upper limit and the lower limit of the overpressure shutdown, the shutdown is carried out, meanwhile, the control terminal judges whether the temperature at each temperature sensor is in a reasonable temperature range or not by comparing the received temperature information of the equipment with a set reasonable temperature region, and if the temperature exceeds the upper limit and the lower limit of an ideal temperature region, the temperature is adjusted; and if the upper limit of the overtemperature shutdown is exceeded, the shutdown is carried out.

And (III) cooling operation:

the system comprises a control terminal, a water pumping device, a cooling device, a temperature detection device and a control device, wherein the control terminal is used for controlling the temperature of the cooling device, the control terminal is used for controlling the operation of the cooling device, the control terminal is used for setting operation parameters of the device, then the water in a river is pumped into the cooling device through the water pumping device, then the water entering the device is cooled through the cooling device, and then the cooled water is conveyed to a cooling pipe in the working device through a pipeline for heat exchange operation, so that the cooling operation is realized, the temperature of the working device is detected through the temperature detection device, and if obvious.

By adopting the cooling process designed by the invention, the working equipment can be rapidly cooled, the cooling water can be recycled, the energy is saved, the environment is protected, the cooling operation can be carried out by adopting river water or underground water according to local conditions, the heated cooling water can be adopted to spray the surface of the working equipment in the cooling process, the cooling effect is ensured, the moisture preservation operation can be carried out on the working equipment, the crack of the working equipment is avoided, and the service life of the working equipment is prolonged.

The first embodiment is as follows:

firstly, installing pumping equipment at a proper position, then installing cooling equipment on the ground, then connecting the pumping equipment with the cooling equipment through a pipeline, then communicating water outlet equipment with the cooling equipment, communicating the water outlet equipment with a cooling pipe in working equipment, then conveying the heat-exchanged and heated cooling water to a hot water recovery tank, then connecting each equipment with a control terminal, comparing the received equipment pressure information with a set pressure regulation limiting limit through the control terminal to judge whether the pressure at each pressure sensor is in a safe range or not, and if the pressure exceeds the upper limit and the lower limit of the pressure regulation, carrying out the pressure regulation; if the temperature exceeds the upper limit and the lower limit of the overpressure shutdown, the shutdown is carried out, meanwhile, the control terminal judges whether the temperature at each temperature sensor is in a reasonable temperature range or not by comparing the received temperature information of the equipment with a set reasonable temperature region, and if the temperature exceeds the upper limit and the lower limit of an ideal temperature region, the temperature is adjusted; if surpass the overtemperature and shut down the upper limit, then shut down, carry out the circular telegram work after the system equipment installation, set up the operation parameter of equipment through control terminal, then in with the water suction cooling arrangement of river water suction through pumping equipment, then carry out cooling work to the water that gets into equipment through cooling arrangement, then carry out heat exchange work in the cooling tube in carrying out the working equipment with the water of cooling through the pipeline, realize cooling work, carry out the detection of temperature through temperature-detecting equipment to working equipment, if it has obvious cooling phenomenon and equipment to detect does not have the anomaly, then show that this system operation is normal.

By adopting the cooling process designed by the invention, the working equipment can be rapidly cooled, the cooling water can be recycled, the energy is saved, the environment is protected, the cooling operation can be carried out by adopting river water or underground water according to local conditions, the heated cooling water can be adopted to spray the surface of the working equipment in the cooling process, the cooling effect is ensured, the moisture preservation operation can be carried out on the working equipment, the crack of the working equipment is avoided, and the service life of the working equipment is prolonged.

Example two:

in the first embodiment, the following steps are added:

the cooling device comprises a water storage tank, a condenser, a cooling fan, cooling fins and a cooling pipe, wherein the condenser is arranged in an inner cavity of the water storage tank, water in the water storage tank is cooled through the condenser, the cooling fan and the cooling fins are arranged on the surface of the working device to actively dissipate heat of the working device, and the cooling pipe is made of copper-aluminum alloy.

Firstly, installing pumping equipment at a proper position, then installing cooling equipment on the ground, then connecting the pumping equipment with the cooling equipment through a pipeline, then communicating water outlet equipment with the cooling equipment, communicating the water outlet equipment with a cooling pipe in working equipment, then conveying the heat-exchanged and heated cooling water to a hot water recovery tank, then connecting each equipment with a control terminal, comparing the received equipment pressure information with a set pressure regulation limiting limit through the control terminal to judge whether the pressure at each pressure sensor is in a safe range or not, and if the pressure exceeds the upper limit and the lower limit of the pressure regulation, carrying out the pressure regulation; if the temperature exceeds the upper limit and the lower limit of the overpressure shutdown, the shutdown is carried out, meanwhile, the control terminal judges whether the temperature at each temperature sensor is in a reasonable temperature range or not by comparing the received temperature information of the equipment with a set reasonable temperature region, and if the temperature exceeds the upper limit and the lower limit of an ideal temperature region, the temperature is adjusted; if surpass the overtemperature and shut down the upper limit, then shut down, carry out the circular telegram work after the system equipment installation, set up the operation parameter of equipment through control terminal, then in with the water suction cooling arrangement of river water suction through pumping equipment, then carry out cooling work to the water that gets into equipment through cooling arrangement, then carry out heat exchange work in the cooling tube in carrying out the working equipment with the water of cooling through the pipeline, realize cooling work, carry out the detection of temperature through temperature-detecting equipment to working equipment, if it has obvious cooling phenomenon and equipment to detect does not have the anomaly, then show that this system operation is normal.

By adopting the cooling process designed by the invention, the working equipment can be rapidly cooled, the cooling water can be recycled, the energy is saved, the environment is protected, the cooling operation can be carried out by adopting river water or underground water according to local conditions, the heated cooling water can be adopted to spray the surface of the working equipment in the cooling process, the cooling effect is ensured, the moisture preservation operation can be carried out on the working equipment, the crack of the working equipment is avoided, and the service life of the working equipment is prolonged.

Example three:

in the second embodiment, the following steps are added:

the pipeline surface in the step one is wrapped by heat insulation cotton, so that the temperature rise of water is avoided in the process of conveying cooling water, the heat dissipation effect is guaranteed, an electromagnetic valve is installed at the node of each pipeline, automatic switching is realized, a pressure gauge is installed on each working device, the working pressure is detected in real time, the working safety is guaranteed, a temperature detector is installed on the working device, and the function of accurate temperature control is realized.

Firstly, installing pumping equipment at a proper position, then installing cooling equipment on the ground, then connecting the pumping equipment with the cooling equipment through a pipeline, then communicating water outlet equipment with the cooling equipment, communicating the water outlet equipment with a cooling pipe in working equipment, then conveying the heat-exchanged and heated cooling water to a hot water recovery tank, then connecting each equipment with a control terminal, comparing the received equipment pressure information with a set pressure regulation limiting limit through the control terminal to judge whether the pressure at each pressure sensor is in a safe range or not, and if the pressure exceeds the upper limit and the lower limit of the pressure regulation, carrying out the pressure regulation; if the temperature exceeds the upper limit and the lower limit of the overpressure shutdown, the shutdown is carried out, meanwhile, the control terminal judges whether the temperature at each temperature sensor is in a reasonable temperature range or not by comparing the received temperature information of the equipment with a set reasonable temperature region, and if the temperature exceeds the upper limit and the lower limit of an ideal temperature region, the temperature is adjusted; if surpass the overtemperature and shut down the upper limit, then shut down, carry out the circular telegram work after the system equipment installation, set up the operation parameter of equipment through control terminal, then in with the water suction cooling arrangement of river water suction through pumping equipment, then carry out cooling work to the water that gets into equipment through cooling arrangement, then carry out heat exchange work in the cooling tube in carrying out the working equipment with the water of cooling through the pipeline, realize cooling work, carry out the detection of temperature through temperature-detecting equipment to working equipment, if it has obvious cooling phenomenon and equipment to detect does not have the anomaly, then show that this system operation is normal.

By adopting the cooling process designed by the invention, the working equipment can be rapidly cooled, the cooling water can be recycled, the energy is saved, the environment is protected, the cooling operation can be carried out by adopting river water or underground water according to local conditions, the heated cooling water can be adopted to spray the surface of the working equipment in the cooling process, the cooling effect is ensured, the moisture preservation operation can be carried out on the working equipment, the crack of the working equipment is avoided, and the service life of the working equipment is prolonged.

Example four:

in the third embodiment, the following steps are added:

and in the step two, the cooling water after the cooling and heat exchange work is conveyed to a hot water recovery tank for storage, the hot water in the recovery tank can be discharged through a pipeline, the discharged water can be used for bathing water of workers, the surface of the hot water recovery tank is specially communicated with a pipeline to be connected with a spray head, the surface of the working equipment is specially sprinkled to carry out cooling work, and damage to the working equipment is avoided when sprinkling.

Firstly, installing pumping equipment at a proper position, then installing cooling equipment on the ground, then connecting the pumping equipment with the cooling equipment through a pipeline, then communicating water outlet equipment with the cooling equipment, communicating the water outlet equipment with a cooling pipe in working equipment, then conveying the heat-exchanged and heated cooling water to a hot water recovery tank, then connecting each equipment with a control terminal, comparing the received equipment pressure information with a set pressure regulation limiting limit through the control terminal to judge whether the pressure at each pressure sensor is in a safe range or not, and if the pressure exceeds the upper limit and the lower limit of the pressure regulation, carrying out the pressure regulation; if the temperature exceeds the upper limit and the lower limit of the overpressure shutdown, the shutdown is carried out, meanwhile, the control terminal judges whether the temperature at each temperature sensor is in a reasonable temperature range or not by comparing the received temperature information of the equipment with a set reasonable temperature region, and if the temperature exceeds the upper limit and the lower limit of an ideal temperature region, the temperature is adjusted; if surpass the overtemperature and shut down the upper limit, then shut down, carry out the circular telegram work after the system equipment installation, set up the operation parameter of equipment through control terminal, then in with the water suction cooling arrangement of river water suction through pumping equipment, then carry out cooling work to the water that gets into equipment through cooling arrangement, then carry out heat exchange work in the cooling tube in carrying out the working equipment with the water of cooling through the pipeline, realize cooling work, carry out the detection of temperature through temperature-detecting equipment to working equipment, if it has obvious cooling phenomenon and equipment to detect does not have the anomaly, then show that this system operation is normal.

By adopting the cooling process designed by the invention, the working equipment can be rapidly cooled, the cooling water can be recycled, the energy is saved, the environment is protected, the cooling operation can be carried out by adopting river water or underground water according to local conditions, the heated cooling water can be adopted to spray the surface of the working equipment in the cooling process, the cooling effect is ensured, the moisture preservation operation can be carried out on the working equipment, the crack of the working equipment is avoided, and the service life of the working equipment is prolonged.

Example five:

in the fourth example, the following steps were added:

water pumping equipment is provided with the filter screen at the income water end department, can be preliminary filter the water of extraction, then the water input after the prefiltering is to the water storage tank in, carries out further filtration and disinfect in the water storage tank, then just can the suction in to the water storage tank.

Firstly, installing pumping equipment at a proper position, then installing cooling equipment on the ground, then connecting the pumping equipment with the cooling equipment through a pipeline, then communicating water outlet equipment with the cooling equipment, communicating the water outlet equipment with a cooling pipe in working equipment, then conveying the heat-exchanged and heated cooling water to a hot water recovery tank, then connecting each equipment with a control terminal, comparing the received equipment pressure information with a set pressure regulation limiting limit through the control terminal to judge whether the pressure at each pressure sensor is in a safe range or not, and if the pressure exceeds the upper limit and the lower limit of the pressure regulation, carrying out the pressure regulation; if the temperature exceeds the upper limit and the lower limit of the overpressure shutdown, the shutdown is carried out, meanwhile, the control terminal judges whether the temperature at each temperature sensor is in a reasonable temperature range or not by comparing the received temperature information of the equipment with a set reasonable temperature region, and if the temperature exceeds the upper limit and the lower limit of an ideal temperature region, the temperature is adjusted; if surpass the overtemperature and shut down the upper limit, then shut down, carry out the circular telegram work after the system equipment installation, set up the operation parameter of equipment through control terminal, then in with the water suction cooling arrangement of river water suction through pumping equipment, then carry out cooling work to the water that gets into equipment through cooling arrangement, then carry out heat exchange work in the cooling tube in carrying out the working equipment with the water of cooling through the pipeline, realize cooling work, carry out the detection of temperature through temperature-detecting equipment to working equipment, if it has obvious cooling phenomenon and equipment to detect does not have the anomaly, then show that this system operation is normal.

By adopting the cooling process designed by the invention, the working equipment can be rapidly cooled, the cooling water can be recycled, the energy is saved, the environment is protected, the cooling operation can be carried out by adopting river water or underground water according to local conditions, the heated cooling water can be adopted to spray the surface of the working equipment in the cooling process, the cooling effect is ensured, the moisture preservation operation can be carried out on the working equipment, the crack of the working equipment is avoided, and the service life of the working equipment is prolonged.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An energy-saving water-cooling process is characterized in that: the method comprises the following steps:

installation of equipment:

firstly, the water pumping equipment is installed at a proper position, then the cooling equipment is installed on the ground, then the water pumping equipment is connected with the cooling equipment through a pipeline, then the water outlet equipment is communicated with the cooling equipment, the water outlet equipment is communicated with a cooling pipe in the working equipment, then the cooling water heated after heat exchange is conveyed to a hot water recovery tank, and then all the equipment are connected with a control terminal.

(II) test running of the system:

judging whether the pressure at each pressure sensor is in a safety range or not by comparing the received equipment pressure information with a set pressure regulation limiting range through a control terminal, and regulating the pressure if the pressure exceeds the upper limit and the lower limit of the pressure regulation; if the temperature exceeds the upper limit and the lower limit of the overpressure shutdown, the shutdown is carried out, meanwhile, the control terminal judges whether the temperature at each temperature sensor is in a reasonable temperature range or not by comparing the received temperature information of the equipment with a set reasonable temperature region, and if the temperature exceeds the upper limit and the lower limit of an ideal temperature region, the temperature is adjusted; and if the upper limit of the overtemperature shutdown is exceeded, the shutdown is carried out.

(III) cooling operation:

the system comprises a control terminal, a water pumping device, a cooling device, a temperature detection device and a control device, wherein the control terminal is used for controlling the temperature of the cooling device, the control terminal is used for controlling the operation of the cooling device, the control terminal is used for setting operation parameters of the device, then the water in a river is pumped into the cooling device through the water pumping device, then the water entering the device is cooled through the cooling device, and then the cooled water is conveyed to a cooling pipe in the working device through a pipeline for heat exchange operation, so that the cooling operation is realized, the temperature of the working device is detected through the temperature detection device, and if obvious.

4. The energy-saving water-cooling process according to claim 1, characterized in that: the cooling device comprises a water storage tank, a condenser, a cooling fan, cooling fins and a cooling pipe, wherein the condenser is installed in an inner cavity of the water storage tank, water in the water storage tank is cooled through the condenser, the cooling fan and the cooling fins are installed on the surface of the working device to actively dissipate heat of the working device, and the cooling pipe is made of copper-aluminum alloy.

5. The energy-saving water-cooling process according to claim 1, characterized in that: the pipeline surface in the step one is wrapped by heat insulation cotton, so that the temperature rise of water is avoided in the process of conveying cooling water, the heat dissipation effect is guaranteed, electromagnetic valves are installed at the nodes of all pipelines, automatic switching is realized, pressure gauges are installed on all working equipment, the working pressure is detected in real time, the working safety is guaranteed, a temperature detector is installed on the working equipment, and the function of accurately controlling the temperature is realized.

6. The energy-saving water-cooling process according to claim 1, characterized in that: and in the second step, the cooling water after the cooling and heat exchange work is conveyed to a hot water recovery tank for storage, the hot water in the recovery tank can be discharged through a pipeline, the discharged water can be used for bathing water of workers, the surface of the hot water recovery tank is specially communicated with a pipeline to be connected with a spray head, the surface of the working equipment is specially sprayed with water for cooling, and damage to the working equipment is avoided when the water is sprayed.

7. The energy-saving water-cooling process according to claim 1, characterized in that: water pumping equipment is provided with the filter screen at the income water end department, can be preliminary filter the water of extraction, then the water input after the prefiltering is to the water storage tank in, further filtration and sterilization are carried out in the water storage tank, then just can the suction in to the water storage tank.