openPR Logo
Press release

Small Scale Deployment of New Waste-to-Energy Technologies | 2023.

Small Scale Deployment of New Waste-to-Energy Technologies |

Advocates of global waste management are gradually becoming adherents to Waste-to-Energy technologies. Waste treatment processes that can convert a waste source and create energy in the form of transport fuels such as diesel, or thermal heat, or electricity are gaining rampant traction in the global waste management sector. Adoption of Waste-to-Energy technologies will continue to gain grounds in the future that is likely to be riddled with tonnes of solid waste. Although, negative perceptions towards Waste-to-Energy technologies can be assessed as a key factor limiting their widespread adoption. Developers are being compelled to find and demonstrate technologies that hold the capability to convert an entire country’s municipal solid waste towards generating energy that powers it, and all this at feasible expense.

In the meantime, new approaches in development of Waste-to-Energy technologies will curb the use of highly-combustive incineration processes. Mass-scale incineration of solid waste have existed since decades, but high carbon emissions associated with their adoption have angered environmental agencies around the world. Innovative thermal processes are being observed as the new Waste-to-Energy alternatives for solid waste incineration. While testing the efficiency of new technologies at large scale is impractical, their small scale adeptness will have a controlling influence on the dynamics of global market for Waste-to-Energy technologies.

Download TOC for Research Report @

Three Emerging Thermal Waste-to-Energy Technologies

Turning loads of municipal solid waste into energy assets is allegedly promised by the emergence of three thermal Waste-to-Energy technologies.

The following technologies are claimed to produce lesser toxic emissions, and hold the potential to eliminate landfilling, albeit, virtually.
Plasma Gasification

Collectively, these three can be identified as conversion technologies as they encompass a wide range of non-combustion processes. Oxygen levels, heat sourcing and temperature range are the key differences between these technologies. Regardless of these differences, gasification, pyrolysis and plasma gasification facilitate a common purpose. By producing synthesis gas or syngas – which is made of carbon monoxide and hydrogen – from incineration of municipal solid waste, these Waste-to-Energy technologies can make energy from feasible thermal reactions. The produced syngas can be converted into electricity by burning it in a boiler system. Processing the syngas can also generate fuel to power a low-emission natural gas generators. Although, to prove these claims, none of the above technologies have been applied on commercial scale.

Enter your information below to receive a sample copy of this report @

Need for Small Scale Adoption of Waste-to-Energy Technologies

Commercial scale deployment of such heuristic Waste-to-Energy technologies entails exorbitant budgets. Municipal authorities and governments should focus on adopting these technologies at small scale. These technologies can be developed to provide a frugal and efficient alternative to mass-burn incineration, particularly for small communities. Municipal solid waste in small communities have a low imprint on the capacity of Waste-to-Energy plants. Construction of small scale Waste-to-Energy plants is more economical, and these thermal technologies are relatively greener compared to conventional grate combustion processes. Under certain circumstances, constructing a small scale Waste-to-Energy plant can be more beneficial since it reduces the costs and environmental impacts of long-distance waste transportation.

Incessant urbanization, unceasing population growth, and dramatically changing economies will continue to foment an uncontrolled transformation in the landscape of global solid waste management. Considering the validity of this notion, developers of such innovative Waste-to-Energy technologies should focus on deploying them at small scale instead of wasting time over the uncertainty of huge fundings.

About Us:-

Transparency Market Research is a market intelligence company providing global business information reports and services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insight for thousands of decision makers.

We are privileged with highly experienced team of Analysts, Researchers and Consultants, who use proprietary data sources and various tools and techniques to gather, and analyze information. Our business offerings represent the latest and the most reliable information indispensable for businesses to sustain a competitive edge.

Contact Us:-

Transparency Market Research

90 State Street, Suite 700, Albany, NY 12207

Tel: +1-518-618-1030

USA - Canada Toll Free: 866-552-3453



This release was published on openPR.

Permanent link to this press release:

Please set a link in the press area of your homepage to this press release on openPR. openPR disclaims liability for any content contained in this release.

You can edit or delete your press release Small Scale Deployment of New Waste-to-Energy Technologies | 2023. here

News-ID: 722840 • Views: 432

More Releases from Transparency Market Research-Energy & Mining

Dynamic Voltage Restorer Market - Financial Status over Forecast Period 2014-202 …
Global Dynamic Voltage Restorer Market: Overview With the ever-increasing demand for power, industries are increasingly deploying systems that ensure uninterrupted generation, transmission, and distribution of power to minimize their losses in terms of revenue, resources, and productivity. This is positively influencing the growth of the global dynamic voltage restorer market. Dynamic voltage restorers are principally accountable for offering reliable and cost effective protection against power fluctuations. They allow consumers to isolate
Gas to Liquids (GTL) Market - Get Facts About Business Strategies 2016-2024
Global Gas to Liquids Market: Overview Gas-to-liquids (GTL) involves converting natural gas into high-quality liquid fuels, which are traditionally obtained from crude oil. At present, the ever-increasing demand for energy and the growing world population has necessitated the development of alternate energy sources to ease the burden on conventional sources. With the rising environmental considerations of conventional sources of energy, clean sources of energy are needed for reduced carbon footprint.
Landfill Gas Market - Research report 2014 : 2020
Global Landfill Gas Market: Overview Landfill gas (LFG) can be utilized for energy generation and to reduce methane emissions in the atmosphere to translate into positive outcomes for local communities. Landfill gas is obtained as a natural byproduct of microbial decomposition of organic matter in landfills. Landfill gas consists almost 50% methane, 50% percent carbon dioxide and a small percentage of complex organic compounds and other compounds. Landfill gas is utilizable for
Copper Indium Gallium Selenide (CIGS) Solar Cells Market - Global Industry Analy …
CIGS (Copper indium gallium selenide) is a semiconductor with direct bandgap which is used for solar cells manufacturing. The absorber of CIGS is placed on a glass or plastic backing, together with electrodes on back and front for current collection. Since the material powerfully absorbs sunlight and has a higher absorption coefficient, comparatively as compared to other semiconductor material, a thin film is required. The devices which are prepared with

All 5 Releases