Results 161 to 170 of about 44,659 (303)
Coal-Fired Boiler Flue Gas Desulfurization System Based on Slurry Waste Heat Recovery in Severe Cold Areas. [PDF]
Zhang C, Zou D, Huang X, Lu W.
europepmc +1 more source
Through a systematic and comprehensive analysis of the environmental impacts for the emerging MXene synthesis pathways, this study presents process transformation and optimization opportunities for low‐carbon MXene production from laboratory to industrial scales.
Yushuai Huang +6 more
wiley +1 more source
An examination has been made of the recovery of waste steam by three techniques: direct heat exchange to process, mechanical compression, and thermocompression.
Kleinfeld, J. M.
core
Precision Lignocellulosic Biorefinery: Process Regulation From Corn Stover to Products
This study presents a precision biorefinery framework that transforms corn stover into high‐value bioproducts through whole‐process regulation. Mechanical fractionation separates feedstock into parenchyma‐rich short fibers and vascular‐bundle‐dominant long fibers.
Xue‐Cheng Lin +4 more
wiley +1 more source
Investigation on thermochemical energy network for efficient waste heat recovery. [PDF]
Bhowmik M +3 more
europepmc +1 more source
Energy, Exergy, Exergoeconomic and Emergy-Based Exergoeconomic (Emergoeconomic) Analyses of a Biomass Combustion Waste Heat Recovery Organic Rankine Cycle. [PDF]
Effatpanah SK +3 more
europepmc +1 more source
Selective Interfacial Barriers Drive High‐Performance GeTe Thermoelectrics
Carrier‐phonon decoupling is the key to developing high‐performance thermoelectric materials. Here, we demonstrate that selective interfacial barriers can decouple carrier and phonon transport, thus achieving an exceptional peak ZT of ∼2.7 at 773 K, along with a record‐high average ZT of 1.9 across 300–773 K in the (Ge0.82Mn0.04Bi0.04Pb0.1Te)0.99(VSe2 ...
Liang‐Cao Yin +12 more
wiley +1 more source
A do-it-yourself approach to waste-heat recovery in MRI. [PDF]
Brühl R +3 more
europepmc +1 more source
Waste Heat Recovery Modellering
SammanfattningI ett tidigare projekt, utfört under våren 2010, modellerades och simulerades en ånggenerator i GT-SUITE för att analysera och jämföra dess resultat med de faktiska motormätningarna. Projektet utfördes på Kungliga Tekniska Högskolan i Stockholm, på uppdrag av företaget som introducerat idén, Ranotor.
Rojas Tena, Fernando, Kadir, Reber
openaire +1 more source
The Organic Rankine Cycle System, Its Application to Extract Energy From Low Temperature Waste Heat
The conservation of energy by its recovery from low temperature waste heat is of increasing importance in today's world energy crisis. The Organic Rankine Cycle is a cost efficient and proven method of converting low temperature (200-400o F) waste heat ...
Sawyer, R. H., Ichikawa, S.
core

