Category Archives: AGRO-BIOGENICS Technologies

CAMPAIGN FOR POVERTY REDUCTION

 

http://www.youtube.com/watch?feature=player_embedded&v=rpgoeKN_aDw

Reducing Poverty through

ECO-WOOD SUBSTITUTE MOLDED DOORS

Global Warming and Poverty (GWP) are the biggest problems of modern world. Both are corollary to one another. We need to work on the two simultaneously. We do that here by developing and commercializing an ECO-WOOD SUBSTITUTE system and converting the same into MOLDED DOORS. These are produced with less machinery (and hence less energy), and instead, using locally available skilled Human resource. Each ton of these Molded Doors would substitute approximately 1.5 T of Wood logs, which would come from double that weight of original trees. One thousand ECO-WOOD SUBSTITUTE MOLDED DOORS would offset cutting trees in approximately 3.75 hectares (9.3 acres) of Wood land/Forest. A million Molded Doors would offset tree cutting in 9,300 ac of forest/woodland. Further, there is the added social benefit that Each 3,000 T Molded Doors Plant would offer direct employment to 300 local Village youngsters – both men and women

PHOTO_1: Skilled Women Technicians Embellishing ECO-WOOD MOLDED DOORS

Also visit:  http://agrobiogenicscleantechpvtltd.com/tpdc-kanaganahalli-work-photos/

July 2, 2014  …..

 

Zero-Carbon Molded Door

HIGH-QUALITY CLEAN-TECH MOLDED DOORS

Here are PRODUCTS that conserve Forests, reduce Global warming, reduce wastes/recycling wastes, providing local jobs, improving National Economy, and helping Customers enjoy the BEST Products at affordable cost.  Natural Fibers such as Coconut leaf splinters, Coconut Husk fibers, Sawdust, Banana Fibers, and many others have very high STRENGTH-to-WEIGHT ratio. This means, on a “weight basis” appropriately designed and engineered products would have high strength, compared to other traditional materials. Further, by converting these Natural Fibers with various specialty Polymers we could arrive at excellent properties that would never be possible using wood alone. Here we have developed extremely Strong, Durable, Water-Proof, Insect-Proof and Warp-proof Composites that combine FORM, FUNCTION and PERFORMANCE. The Composites are Single-Piece, without any joints and planking. Their Aesthetics would make even natural wood just “ordinary looking”

 A Few WOOD SUBSTITUTE MOLDED DOORS

A Few WOOD SUBSTITUTE MOLDED DOORS

Many Stunningly beautiful designs are possible.

Stunningly Beautiful Door Designs are Possible!

Stunningly Beautiful Door Designs are Possible!

 Also Visit: http://agrobiogenicscleantechpvtltd.com/quality-products-from-village-level-industries/

Ask for More details: Contact us through the “COMMENT BOX” below (https://zerowastezerocarbon.wordpress.com/2013/02/15/zero-carbon-molded-door/#respond), or mailto:pvhramani@yahoo.com    :

 

2012 in review

The WordPress.com stats helper monkeys prepared a 2012 annual report for this blog.

Here’s an excerpt:

600 people reached the top of Mt. Everest in 2012. This blog got about 2,800 views in 2012. If every person who reached the top of Mt. Everest viewed this blog, it would have taken 5 years to get that many views.

Click here to see the complete report.

The COCONUT Tree – a real Goldmine

Coconut trees dot across the entire coastal regions of the tropics except where the climate is dry (mainly in desert type climatic regions)

Click on the Photo to get enlarged viewBeautiful Coconut Trees

Beautiful Coconut Trees

An average Coconut tree has a life of about 100 years. But, most trees may become less productive after 60 years.

India has a sea coast line of over 6,500 Km and Coconut trees dot almost the entire stretch (about 6,000 Km). These trees are grown in the interior regions too (the Photo illustration above is one such interior region in the southern Karnataka State). The estimated number of trees in India is 1,200 million (almost one tree per individual in India!). Were we to consider the life of an average tree at 60 yrs, we could have a total of 30,000,000 trees for use annually. These could be converted into Engineered Composites ranging from small buttons to structural engineering products and sophisticated Auto components – resulting in wood substitutes, metal substitutes that results in conservation and less environmental damages. India could, thus, manufacture not less than 30,000,000 T of Coconut tree materials based engineered composites. If all of these were to replace wood used in engineering, homes, furniture etc … no tree would have to be cut in India for all wood based engineered products!

Coconut Fiber Converted Products

Coconut Fiber Converted Products

Click on the Photo to get enlarged viewProduction sequence

Please visit: http://www.cleantech.org/magazine/read/total-wood-substitute-using-vegetation-wastes_305.html

and http://tvdpworks.wordpress.com/

Updated on Oct 11, 2014

ENERGY, MATERIALS AND ENVIRONMENT PEOPLE

AGRO-BIOGENICS (CLEAN-TECH) PVT LTD, is a start-up enterprise that works on mitigation of Global Warming and Poverty (GWP). Registered as a Company in India, Bangalore (Karnataka State).

MISSION: Working toward mitigation of GWP, reducing the gap between “rich” and “poor”

AGRO-BIOGENICS: Our ultimate Objective is to Provide decent Livelihood Earnings to every able bodied man/woman in villages. To this end, we shall develop and create a new Business paradigm that would involve the quadruple impacts of SOCIO-TECHNO-COMMERCIAL and ENVIRONMENTAL developments … Thus, the prime criterion would be the increase in Jobs at the “lowest” rungs of the society; the second criterion would be the impact on the knowledge levels that help in enhancing current and future developments; the third criterion would be the impact and potentials in business and commerce; the fourth criterion (not the least in importance) would measure how much lesser all these would impact on the environment …

Please visit: http://agrobiogenicscleantechpvtltd.com/total-village-development-projects-tvdp/

https://zerowastezerocarbon.wordpress.com/2011/08/07/environmentally-neutral-engineering-composites-for-boats-and-aircrafts/

https://zerowastezerocarbon.wordpress.com/2009/11/02/zwzcbm-bananaplantationexample/

https://zerowastezerocarbon.wordpress.com/2009/11/02/zwzcbm-bananaplantationexample/

 

Environmentally Neutral Engineering Composites for Boats and Aircrafts

TRADITIONAL ENGINEERING MATERIALS

Steel, Aluminum, Brass, Bronzes, Plastics, Polymer Composites and Wood are the most used traditional engineering materials. These have certain properties as follows: (CLICK on the TABLE to ENLARGE have a better View)

Certain Traditional Engineering Materials properties

Certain Derived Properties of Composites in Fibers, Compared with Steel

Fiber (40% uni-directional) Tensile Strength Sp.wt Sp. Tensile Strength Tensile Modulus Eq Wt Section Eq. Wt Rigidity Modulus Cost Factor
(MPa) (kg/m3) (m) (GPa) (cm) Carbon Steel = 1 cm (Kg-m2) (Rs/ Kg)
Bamboo 293 600 48833 18.32 13.08 3416 250
Bamboo-Glass 350 703 49786 18.23 11.16 2111 255
Hybrid Bamboo1 440 688 63953 22.85 11.4 2282 740
Hybrid Bamboo2 438.2 695 63050 27.09 11.29 3248 990
E-Glass 816.8 1474 55413 18.91 5.32 237.27 270
S-Glass 1104 1455 75876 23.16 5.39 302.22 510
Carbon Fiber 1222 1336 91467 74.95 5.87 1263 3210
Kevlar 49 1298 1243 104424 45.27 6.31 947.8 2210
Boron 946.5 1467 64519 92.94 5.35 1186 3810
High tensile Steel 4000 7900 50632 210 0.99 16.98 250
Low Carbon steel 400 7850 5095 210 1 17.5 60

Comparative Design Advantage of Hybrid Bamboo Composites:

In order that we are able to arrive at “optimum” engineered material system for a particular design need, we shall compare the “Rigidity factor” based on Low Carbon Steel (which is the standard structural engineering material)

The average thickness of Steel sheet material needed for the hull of a small 20 ft Dinghy that needs to be “seaworthy’ is 6 mm. The various thickness factors for the Composites (based on equivalent Rigidity factor) are presented below:

Fiber (40% uni-directional) Tensile Strength Sp.wt Sp. Tensile Strength Engineered Section Wt per Sq m Rigidity Modulus Fabrication Cost Factor
(MPa) (kg/m3) (m) (cm) Kg (Kg-m2) (Rs/ Sq m)
Low Carbon steel 400 7850 5095 0.6 47 3.78 5640
Bamboo (40%) 293 600 48833 1.36 8.16 3.84 3060
Bamboo-Glass 350 703 49786 1.36 9.56 3.82 3657
Hybrid Bamboo1 440 688 63953 1.26 8.67 3.8 7700
Hybrid Bamboo2 438.2 695 63050 1.2 8.34 3.9 9908
Kevlar 49 1298 1243 104424 1.01 13.11 3.88 33319

 It is noted that we could engineer superior structures using both 40% bamboo composite and bamboo-glass composites. The cost factors would be lesser than that of Low carbon steel structure, even at 50% excess thickness levels in the Bamboo composite structures. That would mean far superior Strength-Rigidity factors in the resultant engineered systems. See the Table below:

Fiber (40% uni-directional) Tensile Strength Sp.wt Sp. Tensile Strength Engineered Section Wt per Sq m Rigidity Modulus Fabrication Cost Factor
(MPa) (kg/m3) (m) (cm) Kg (Kg-m2) (Rs/ Sq m)
Low Carbon steel 400 7850 5095 0.6 47 3.78 5640
Bamboo (40%) 293 600 48833 2.04 12.24 12.96 4590
Bamboo-Glass 350 703 49786 2.04 14.34 12.89 5485

It is further noted that even at double the “minimum thickness” for “steel equivalent” Rigidity factor, the weight factor is only about one-fourth of steel … allowing us to have greater Strength-Rigidity-Economics

For more details on the subject of STRENGTH, RIGIDITY and related Factors, please visit the blog:

http://cr4.globalspec.com/comment/752322/Re-Optimized-Engineering-Materials-Through-Cleantech

Bamboo-Composite Molded Boat/ Dinghy (Click to Enlarge)

Please see the following blogs on this subject for more details:

1. http://cr4.globalspec.com/comment/750225/Re-Optimized-Engineering-Materials-Through-Cleantech

2. http://cr4.globalspec.com/comment/754912/Re-Optimized-Engineering-Materials-Through-Cleantech

We are now looking at the possibility of Designing and constructing a Lightweight AIRCRAFT (Two-Seater) using Hybrid Bamboo Composites. Please see here:

http://cr4.globalspec.com/comment/756431/Re-Optimized-Engineering-Materials-Through-Cleantech

Main Structure Syatems in a Lightweight Aircraft

ZERO-WASTE ZERO-CARBON FARMING

Please also visit: Real Value Additions using Agrowastes and http://agrobiogenicscleantechpvtltd.com/

It is estimated that an average farmland in India would support a total plants/ vegetation/ shrubs/ grasses growth of not less than 50 Tons of biomass. This is without any agricultural operations being carried on! It is also noted that each ton of “green weight” biomass could be anaerobically converted into the following:

1. Methane gas …………………………….. 75 Kg

2. Carbon Di Oxide ………………………. 130 Kg

3. Biofertilizer …………………………….. 63 Kg

4. H2S + Amines ………………………….. 2 Kg

5. Insitu Water …………………………….. 730 Kg

The Photo illustration shows “Natural Sustainable growth” in various farmlands in southern India. It is possible for every farmer to take advantage of AGRO-BIOGENICS TECHNOLOGIES and each ha of any farmland could GENERATE NOT LESS THAN Rs.300,000 (US $6667 at Jan 2011 values) WORTH PRODUCTS/ VALUE ADDITIONS per annum. This is over and above whatever is being generated now using current practices

For more details:

pvhramani@yahoo.com