Reprint

Environmental Impact Assessment by Green Processes

Edited by
December 2022
296 pages
  • ISBN978-3-0365-5895-0 (Hardback)
  • ISBN978-3-0365-5896-7 (PDF)

This book is a reprint of the Special Issue Environmental Impact Assessment by Green Processes that was published in

Environmental & Earth Sciences
Medicine & Pharmacology
Public Health & Healthcare
Summary

Primary energy consumption around the world has been increasing steadily since the Industrial Revolution and shows no signals of slowing down in the coming years. This trend is accompanied by the increasing pollutant concentration on the Earth’s biosystems and the general concerns over the health and environmental impacts that will ensue. Air quality, water purity, atmospheric CO2 concentration, etc., are some examples of environmental parameters that are degrading due to human activities. These ecosystems can be safeguarded without renouncing industrial development, urban and economic development through the use of low environmental impact technologies instead of equivalent pollutant ones or through the use of technologies to mitigate the negative impact of high emissions technologies. Pollutant abatement systems, carbon capture technologies, biobased products, etc. need to be established in order to make environmental parameters more and more similar to the pre-industrialization values of the planet Earth. In 15 papers international scientists addressed such topics, especially combining a high academic standard coupled with a practical focus on green processes and a quantitative approach to environmental impacts.

Format
  • Hardback
License
© by the authors
Keywords
environmental compliance; enterprise innovation; Chinese manufacturing enterprises; U-shaped relationship; anaerobic digestion; digestate; liquid-solid separation; membrane separation; nutrient recovery; membrane fouling; biomass; syngas scrubber wastewater; environmental pollution; pollutant abatement technologies; biochar; adsorption; air quality; Saharan dust; environmental pollution; mineral dust; toxicity assessment; luminescent bacteria; acute and chronic toxicity; environmental stringency policies; human development; CO2 emissions; panel cointegration and causality analyses; CO2 emissions; hydroelectricity consumption; economic growth; urbanization; China; crop production; agricultural carbon emissions; EKC; decoupling; LMDI; innovative human capital; CO2 emission; Chinese provinces; economic growth; emissions trading system; green total factor productivity; spatial difference-in-difference; energy efficiency; green innovation; industry structure; spatial heterogeneity; carbon tax; low-carbon economy; CO2 emissions; double dividend; CGE model; tax neutrality; carbon tax recycling system; human resource management (HRM); green psychological climate (GPC); green organizational culture (GOC); environmental concerns; economic performance; green innovation; CEO tournament incentive; tournament theory; state-owned enterprises; China; carbon tax recycling policy; green economy; technological progress; CGE model; triple dividend; carbon emissions; channeled emission; emission factor; particulate matter; abatement technology; ceramic industry; PM10, PM2.5, and PM1; n/a