Popular Design for Pumpkin Seed Extract Manufacturer in Zimbabwe
Popular Design for Pumpkin Seed Extract Manufacturer in Zimbabwe Detail:
[Latin Name] Cucurbita pepo
[Plant Source]from China
[Specifications] 10:1 20:1
[Appearance] Brown yellow fine powder
Plant Part Used:Seed
[Particle size] 80 Mesh
[Loss on drying] ≤5.0%
[Heavy Metal] ≤10PPM
[Storage] Store in cool & dry area, keep away from the direct light and heat.
[Shelf life] 24 Months
[Package] Packed in paper-drums and two plastic-bags inside.
[Net weight] 25kgs/drum
Introduction
Pumpkin seed is used medicinally to help improve bowel function by ridding the intestinal tract of parasites and worms.
As raw material of drugs for eliminating insecticide, swelling, andpertussis, pumpkin seed extract is widely used in pharmaceutical industry;
As product of treating malnutrition and prostate, pumpkin seed extract is widely used in health industry.
FUNCTION:
1.Pumpkin seed extract can help to prevent the prostate disease.
2.Pumpkin seed extract has the function of treating whooping cough and children with sorethroat.
3.Pumpkin is also a natural source of magnesium, phosphorus, selenium, zinc, vitamin A, and vitamin C.
4.The cushaw extract is also a laxative, which can help to moisture the skin, is indeed a good beauty food for women.
5.Pumpkin seed is used medicinally to help improve bowel function by ridding the intestinal tract of parasites and worms.
6.The cushaw seed extract have much acid , this acid can relax the rest angina, and have a function to low the high blood liquid
Product detail pictures:

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The corporate upholds the philosophy of "Be No.1 in excellent, be rooted on credit rating and trustworthiness for growth", will keep on to serve outdated and new clients from home and abroad whole-heatedly for Popular Design for Pumpkin Seed Extract Manufacturer in Zimbabwe , The product will supply to all over the world, such as: United Arab emirates, Hyderabad, Colombia, Besides strong technical strength, we also introduce advanced equipment for inspection and conduct strict management. All the staff of our company welcome friends both at home and abroad to come for visits and business on the basis of equality and mutual benefit. If you are interested in any of our items, please feel free to contact us for quotation and product details.
Over 300 species of medicinal herbs were used in Agrohomeopathy experiments by Pankaj Oudhia. These experiments were conducted by using medicinal and aromatic crops as test crops. These test crops were Safed Musli (Chlorophytum borivilianum), Ashwagandha (Withania somnifera), Kasturibhindi (Abelmoschus moschatus), Sarpgandha (Rauvolfia serpentina), Kali Musli (Curculigo orchioides), Kevach (Mucuna pruriens), Chandrashoor (Lepidium sativum), Stevia rebaudiana, Aloe vera,Andrographis paniculata, Gloriosa superba, Cissus quadrangularis, Jatropha curcas etc. Pankaj Oudhia has shared his work on Agrohomeopathy through pankajoudhia .com
This Film is a part of plus 2000 parts series. It is better to watch this film after reading the research documents in order to understand it in real sense.
Related Topics in pankajoudhia.com
Organic Farming of Emergency Crops through Pankaj Oudhia’s Vedic Ingredient jyotsna, Organic Farming of Tribal Crops through Pankaj Oudhia’s Vedic Ingredient katudalini, Organic Farming of Daibetes Herbs through Pankaj Oudhia’s Vedic Ingredient devadali, rajakoshataki, Organic Farming of Emergency Crops through Pankaj Oudhia’s Vedic Ingredient jalini, Organic Farming of Traditional Food Crops through Pankaj Oudhia’s Vedic Ingredient krishna jiraka , Organic Farming of Biofuel crops through Pankaj Oudhia’s Vedic Ingredient krishnajiraka, Organic Farming of Traditional Pulses through Pankaj Oudhia’s Vedic Ingredient krishna, Organic Farming of Traditional Food Crops through Pankaj Oudhia’s Vedic Ingredient bhedini, Organic Farming of Forest Trees through Pankaj Oudhia’s Vedic Ingredient ruchya, Organic Farming of Medicinal Climbers through Pankaj Oudhia’s Vedic Ingredient jiraka, Organic Farming of Traditional Pulses through Pankaj Oudhia’s Vedic Ingredient sugandha, Organic Farming of Endangered Medicinal Plants through Pankaj Oudhia’s Vedic Ingredient kanajir, Organic Farming of Medicinal Millets through Pankaj Oudhia’s Vedic Ingredient krishnajaji, Organic Farming of MAPs through Pankaj Oudhia’s Vedic Ingredient hridya, Organic Farming of MAPs through Pankaj Oudhia’s Vedic Ingredient kalajirak, Organic Farming of Biofuel crops through Pankaj Oudhia’s Vedic Ingredient krishnajiraka, karavi, krishna kamala, Organic Farming of Medicinal Tubers through Pankaj Oudhia’s Vedic Ingredient krishna kamala, Organic Farming of Traditional Food Crops through Pankaj Oudhia’s Vedic Ingredient krishna sirish, Organic Farming of Medicinal Trees through Pankaj Oudhia’s Vedic Ingredient krishnabija , Organic Farming of Tribal Crops through Pankaj Oudhia’s Vedic Ingredient krishnabijia, Organic Farming of MAPs through Pankaj Oudhia’s Vedic Ingredient kaladana, Organic Farming of Biofuel crops through Pankaj Oudhia’s Vedic Ingredient krishnacandana , Organic Farming of Traditional Food Crops through Pankaj Oudhia’s Vedic Ingredient krishnacandana, Organic Farming of Medicinal Trees through Pankaj Oudhia’s Vedic Ingredient daru-haridrakam, Organic Farming of Medicinal Trees through Pankaj Oudhia’s Vedic Ingredient darvi, Organic Farming of Medicinal Climbers through Pankaj Oudhia’s Vedic Ingredient pita candanak, Organic Farming of Medicinal Trees through Pankaj Oudhia’s Vedic Ingredient kaleyaka, Organic Farming of Traditional Pulses through Pankaj Oudhia’s Vedic Ingredient krishnanimba , Organic Farming of MAPs through Pankaj Oudhia’s Vedic Ingredient krishnanimba, Organic Farming of Daibetes Herbs through Pankaj Oudhia’s Vedic Ingredient kalashaka, Organic Farming of Medicinal Millets through Pankaj Oudhia’s Vedic Ingredient kaidarya,
https://www.iitutor.com
Condensation polymers are formed when monomers join together, and in the process also form a separate small molecule such as a water molecule. The ends of the monomer molecules must have functional groups that can join with other functional groups on neighbouring molecules.
Condensation polymerisation is the process in which two monomers combine with the elimination of a smaller molecule. One way that two different monomers can combine and in doing so lose a molecule of water and represents condensation polymerisation. This process continues and each remaining end joins with another monomer—each time lengthening the chain. One way to think of this is a “head-to-tail” joining.
Synthetic condensation polymers include nylons and polyesters. Natural condensation polymers include cellulose, cotton, wool, and silk.
Cellulose is a complex carbohydrate or polysaccharide. It is the most abundant biopolymer in nature. Carbohydrates consist of molecules containing C, H and O atoms. Carbohydrates contain many alcohol functional groups.
• Cellulose consists of long chains of β-glucose monomers.
• Glucose is an example of a simple carbohydrate or monosaccharide.
Structure of glucose :
Glucose (C6H12O6) is a ring molecule. The carbon atoms in the ring are numbered as shown. The –OH functional groups may be orientated above or below the plane of the ring. These different orientations at C, produce the alpha and beta forms of the glucose monomers.
• Glucose is an organic compound
• Ring can open up in solution to form a straight-chain structure. Open and chain forms are in equilibrium that cause glucose to exist as anomers, β-glucose and α-glucose.
Biopolymer is a naturally occurring polymer such as cellulose, starch, gluten, DNA and protein.
Formation of cellulose:
Cellulose is a condensation polymer which is formed when glucose monomers condense together through beta-1,4-glycosidic bonds. This involves a reaction between the –OH groups at the C1 and C4 carbons of adjacent glucose molecules.
The process begins by the condensation reaction between two glucose monomers to form a beta-maltose dimer. A water molecule is eliminated during this reaction. More glucose monomers condense and the chain grows until about 10 000 glucose monomers are linked in long, unbranched, ribbon-like strands.
Strong hydrogen bonding exists between –OH groups of neighbouring, close-packed strands. This produces a water-insoluble polymer with great strength and rigidity. Plants use cellulose as a structural carbohydrate for their cell walls.

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