E-Waste Management Market – 2020 Industry Analysis

The global e-waste management market is anticipated to grow during the forecast period owing to the increasing amount of e-waste generated every year. The e-waste generated should be recycled or disposed properly to protect the environment and human beings from the harmful effects of toxic elements present in it. According to Environmental Protection Agency (EPA), the amount of e-waste generated is estimated to increase between 5 to 10% annually. In 2011, the amount of e-waste recovered is approximately 5% of the total e-waste generated. Rest of the e-waste that is dumped without proper methods possesses threat to the environment as well as the human beings.
E-waste consists of all types of electrical and electronic equipment that are a part of the waste stream. TVs, computers, fridges, washing machines, mobile phones and others items with circulatory or electrical components with battery or power supply are also a part of e-waste. The system of establishing a value chain to ensure the collection, recycling and proper disposing of e-waste is called e-waste management system. According to 3Rs (Reduce, Reuse and Recycle) of waste management, the waste quantity should be reduced through smart procurement and good maintenance. Equipment that is functional should be reused by selling or donating. The equipment that cannot be repaired should be recycled.
E-waste recycling equipment is different from municipal waste as it contains various hazardous metals. It also contains various precious and valuable metals. Some of the e-waste is very harmful to human being and the environment, if not disposed properly. For example, polyvinyl chloride cables (PVC) which are used for connectors and cables are very harmful, as they release dioxins on burning or when land filled. These dioxins have negative effects on human reproductive and immune systems. Some of the other toxic wastes presents in e-waste are mercury, beryllium and lead among others. These wastes can have adverse effects on the nervous system, brain and kidney.
The global e-waste management market can be segmented on the basis of the source of waste generation into domestic, IT and Telecom, consumer electronics and others. Domestic segment includes e-waste such as refrigerator, TVs and waste washing machine. North America and Europe are very sensitive to environment pollution. Hence these regions contribute most to the global e-waste management market.
Rapid technology development and replacement of equipment coupled with the migration from analogue to digital technologies have fueled the global e-waste market. New innovations in technology such as a shift from curved to flat screen TVs and monitors are also driving the global e-waste management market. Moreover, the economies of scale have given consumers advantages in term of prices, which has increased the demand of many electronic products such as mobile phones. This has also increased the amount of e-waste. The increasing amount of e-waste every year will provide a great opportunity to the e-waste management market. However, improper e-waste management system in several parts of the world is hampering the growth of the global e-waste management market.
Some of the key players in the global e-waste management market are Electronic Recyclers International, Inc., Sims Recycling Ltd., E-Waste Harvesters, Electronic Waste Management, E-Waste Systems, Inc., MRI (Australia) Pty Ltd., Desco Electronic Recyclers and Waste Management Inc. among others.
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TRAI bats for common optical fibre infrastructure

Telecom regulator TRAI is in talks with the states over laying of common optical fibre infrastructure and would release its recommendations soon to improve high-speed broadband connectivity in the country, its chairman R S Sharma said on Thursday. The regulator is advocating a common duct infrastructure which could be used by any operator who wants to lay optical fiber network. Speaking at the Broader Way Forum India, Sharma said digging of roads to lay Optical fiber cable should be done once and all operators should be able to utilise a common duct for laying cables.
“We are saying that a common duct infrastructure be made by an third party and that should be done in a transparent. Any operator who wants to lay fiber should be able to use that duct. We will be giving our recommendation very soon. We are having some discussion with states,” Sharma said. He said country needs model aligned to incentive where interest of users, operators and government is aligned. For faster rollout of wireline networks, the Department of Telecom recently notified Right of Policy to facilitate common rule across country.
On the occasion, Telecom Minister Manoj Sinha said that there is need for enhancing penetration of wireline connection in the country for providing high speed broadband. “Broadband speed in India are lowest in the world. South Korea on the other hand has an average speed of 29 mbps. Presently wireline connectivity a fraction of wireless connectivity in our country. In order to explore the true potential of broadband, it is important to look at improving the wireline connection in India,” Sinha said.
He said that government itself is aggressively rolling out BharatNet project by laying optical fiber patch cord for providing high speed broadband service.”Industry has huge role to play in this transformation. Telecom service provider and other internet service provider are rolling out fibre in their respective market,” Sinha said. Huawei India CEO Jay Chen asked the government to release spectrum in E and V bands as they will act like optical fibre in air and resolve high speed connectivity issue to some extent.
Telecom operators have sought the opening up of new frequency bands — 71-76 gigahertz (GHz) and 50 GHz. Wireless services deployed in these bands are believed to deliver broadband speed of up to 1 gigabyte per second as in the case of optical fibre. Opening up of backhaul spectrum is expected to reduce cost and time of deploying networks and also resolve the tedious process of seeking permit from local authorities of laying out optical fibre network.

Introduction to the Stainless steel valves

1.Stainless steel valves have stainless steel ball valve,stainless steel gate valve,stainless steel globe valve,stainless steel check valve,stainless steel plug valve, the material have SS304,SS304L,SS316,SS316L,SS321,。
2.Stainless steel valve control can use a variety of transmission way, such as manual, electric, hydraulic, pneumatic, worm gear, electromagnetic actuator, electromagnetic, hydraulic, electric, hydraulic, pneumatic, hydraulic, spur gear, bevel gear drive, etc.;In pressure, temperature or other form under the action of sensor signals, action, according to the requirement of the reservation or not depend on the sensor signals for simple open or shut down, rely on the drive or automatic mechanism makes opening and closing valve for lifting, sliding, place or rotary movement, so as to change the size of the port in order to realize the control function
3.Stainless steel valves are widely used in chemical, petrochemical, petroleum, the papermaking, mining, electricity, liquid gas, food, pharmaceutical, water supply and drainage, municipal, mechanical equipment, electronic industry, urban construction and other fields.Valve is control unit in the pipeline fluid conveying system, it is used to change the channel cross-section and flow direction of medium, a diversion, globe, adjust, throttle, check, or the overflow pressure relief, and other functions.Used for fluid control valve, from the most simple cut-off valve to extremely complex automatic control system used in all kinds of valves, its various varieties and specifications.Stainless steel valves can be used to control water, steam, oil, gas, mud, all kinds of corrosive medium, liquid metal fluid flow, and radioactive fluid and so on various types of valve working pressure can be from 0.0013 MPa to 1000 MPa ultrahigh pressure, working temperature from 269 ℃ ultra-low temperature to 1430 ℃ high temperature.

CO2 Laser Tube Common Working Problems

Weak output laser power
1. Check if any scratches or dirt on laser tube output lens and the laser tube put on laser tube support at right point (Marked as"suggested support point"on SPT laser tube).
2. Check the output current of laser machine, service voltage, cooling water temperature, cleanness and rate of water flow.
3. Check the cleanness of focus lens and the reflectors on your laser machine, check whether the lens and reflective mirrors get hot or the laser beam is not well aligned.

Laser tube broken or the laser tube ends fallen off
1. Cooling water temperature must be 15 to 25 degrees. The cooling water can be frozen in cold area to cause laser tube broken from inside, so don’t leave any water within the laser tube when temperature is under 0 degree.
2. The 80w co2 laser tube must run under water protection device is on. (To test the tube lights or not with water supplied or not)
3. Check the silicon water pipe is folded or pressed by something.
4. Check if any bubbles in the laser tube.
5. Check whether the cooling water flow rate is normal and the water is circled from low to high.

The above information is provided by SPT, which is the high-tech enterprise being fosued on optical design, manufacture and sales of optical laser products. SPT mainly supplies high quality co2 laser tube, co2 laser lens and mirror, large field size dynamic focus system and 3D laser marking system.

Sacred Sun FCP lead carbon batteries delivered to the roof of the world

Recently, Sacred Sun has successfully won the bidding of China Huadian Corporation (CHD) Tibet renewable energy project with its FCP lead carbon battery energy storage systems, it is the world’s highest and largest solar -diesel micro-grid power plant project and also the key anti-poverty project national supported.

This whole project consist of solar-diesel micro-grid power plant and urban electrical distribution network, it mainly contains 22 MW solar power plant systems, 12MW energy storage bi-directional power inverter, 12 MWh lithium-ion battery pack, 36MWh lead carbon battery group and 2*1500kW diesel generator in detail.

As one of the energy storage solutions leaders, Sacred Sun finally has successfully won this bidding on account of its cutting-edge technology and extensive experience in energy storage solutions. FCP lead carbon battery, a kind of high-end battery produced in china and the advanced technology come from Japanese Furukawa, could operate 4200+ cycles at 70% depth of discharge (DoD), provided that one day one cycle, battery service life could up to 10 years.

Up to now, the materials including FCP energy storage batteries group have already delivered to the Nima county, northwest of Tibet, with the average elevation of 4800m, the annual average temperature 2.3 oC and outdoor extreme minimum temperature lower than 44.6 oC, in which place as we all know with thin air, more wind and snow as well. However, Sacred Sun group, though have undergone sufferings and hardships from severe environment and poor geographical factors, has finally successfully move all the materials to the roof of the world and ready for installation.

We Sacred Sun exists not only rely on the quality of products, but also the spirit, it stays in us and will last forever!
the workers of sacredsun move fcp lead carbon batteries into the power plant energy storage system
(the workers from sacred sun move fcp lead carbon batteries into the power plant energy storage system)