Paper/Nano Technology Books

Micro and Nanotechnology in Paper Manufacturing

Author- Dr. Mahendra Patel, (530 pages ); ISBN No. 978-81-923542-2-4);

Price: $ (USA) 120 + delivery charge

Minerals in Paper Manufacturing

(Author- Dr. Mahendra Patel, 32 chapters, 350 pages ; ISBN No. 978-81-923542-1-7).

Price: $ (USA) 65 + delivery charge

Operations and Recycling in Paper Mills with Micro and Nano Concepts

Author- Dr. Mahendra Patel; (22 chapters- 500 pages); ISBN No.978-81-923542-3-1)

Price: $ (USA) 150 + delivery charge

Materials for Better Productivity in Pulp and Paper Mills: Metals and Polymers

(Author: Dr. Mahendra Patel; 616 pages; 36 chapters; ISBN No.978-81-923542-5-5)

Price- US $230+ Cost of dispatch.

Ceramics in Paper Manufacturing including Advanced and Nano Materials

(Author: Dr. Mahendra Patel, 420 pages; 32 chapters, ISBN No: 978-81-923542-4-8.)

Price: $ (USA) 220 + delivery charge

Contact: industrypaper@yahoo.co.uk

patel@nanoindustry.in

:Tel:91(0)9871787870

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Nanotechnology Update

Pulp, Paper and Packaging industries

Date	News
11/02/2019	CelluForce restarts production of Cellulose Nanocrystals
27/09/2018	Cellulose Nanocrystals as Advanced Barrier Coatings for Food Packaging
13/03/2018	Scaling Up Production of Colloidal Lignin Particles
26/02/2018	Cellulose Nanofibril Hydrogel
28/05/2012	Hydrogen from Paper Mill waste water with Nanotechnology
30/04/2012	Micro and Nanotechnology in Formation and Control of Harsh Environments
02/04/2012	Nanofibres produced from sludge
13/03/2012	Nanotechnology in Bioenergy
28/02/2012	Composites from microfibrillated cellulose-reinforced thermoset starch
28/02/2012	Montmorillonite nanocomposite nanofibre mats
28/02/2012	Silicon nitride composite reinforced by SiC nanoparticles
13/02/2012	First biorefinery in the world
13/02/2012	Next generation weight xP actuators
03/02/2012	Biorefinery plant
03/02/2012	Biofuel from Grass
03/02/2012	Nanocrystalline Cellulose demonstration plant
24/01/2012	Starch Nanocrystals for Bio-Based Flexible Packaging
24/01/2012	First Commercial Lignoboost Plant
24/01/2012	Pitch detackification with natural and modified talcs
24/01/2012	Microstructure simulation of paper forming

29/09/2010

Flowery magnetic microspheres clean industrial waste water

Chinese scientists reveal an easy and effective synthetic method to obtain iron oxide microspheres to treat contaminated water. Industrial wastewater containing toxic metal ions and organic pollutants has become a serious threat to the environment and public health. So the synthesis of three-dimensional micro and nanomaterials with the capability of absorbing undesired water contaminants in a straightforward and effective manner is a priority for environmental scientists.

Now Hongjie Zhang and colleagues at Changhun Institute of Applied Chemistry have designed an easy method to synthesise flower-shaped Fe₃O₄ microspheres with magnetic properties, which can be used as absorbents to treat wastewater. Unlike previous synthetic routes, Zhang's hydrothermal method avoids the use of surfactants and copolymers that would need to be removed from solution.

The micro sized metal oxide particles posses large surface areas which give them the capability of treating large volumes of water in short times. They can be easily separated from solution by a magnet and cleaned by heating to keep the same adsorption performance in subsequent use.

Science et Séjour en France

Flowery magnetic microspheres clean industrial waste water