Thermal Organics aims to develop sustainable pesticides that protect crops and the environment. Its mission is to create pesticides that kill insects harming crops without using toxins, while also enriching soil. The company's vision is to produce pesticides that not only protect crops but provide liquid proteins to soil. Through genetically engineering pesticides, the company hopes to provide an alternative to hazardous chemicals like DDT currently used by many farmers.
Synergy refers to different entities cooperating to achieve a greater outcome than the sum of their individual parts. Media institutions exploit various platforms like web, DVDs, and downloads to sell multiple related products from a single film. This allows various companies to link up and profit from one major product. For example, Disney pioneered synergistic marketing techniques in the 1930s by allowing companies to use Mickey Mouse in various products and advertisements.
The document announces upcoming events for the ASME student chapter at UCF including workshops on soldering, SolidWorks, and tours of a power plant and HPV restoration. It provides details on volunteer opportunities at H2AC, use of the 3D printer, and officer positions. The next meeting on April 16th will include officer elections.
The document announces upcoming events for the ASME student chapter at UCF including a hovercraft workshop meeting on November 25th, a tour of the OUC solar farm on November 21st, and fundraising at a football game on November 24th. It provides details on the times and locations for each event. The document also lists contact information for people organizing the hovercraft workshop and fundraising.
This document provides information about the Fall Kick-Off Meeting for the ASME student chapter at the University of Central Florida (UCF). It introduces the officers of the ASME UCF chapter and states the chapter's mission. It then outlines opportunities for students to get involved with the chapter through design competitions, engineering tours of companies like Lockheed Martin, and hands-on projects like building a trebuchet. Upcoming events like a BBQ, bowling night, and tours are also listed.
The document shows the variance to goal percentages for actual and projected monthly numbers in 2017. In January, the actual amount was 350 compared to the projected 400, resulting in a 12.5% variance. In February, the actual amount was 700 versus the projected 600, for a 16.7% variance. In March, the actual amount was 725 while projected was 800, yielding a -9.375% variance.
OBJECTIVE:
To adopt a business in agriculture as well as to produce milk by organic means which helps our own business as well creates social awareness on organic cultivation among other agriculturists thus preparing them for prospective demand.
This document provides details about a proposed biofloc fish farming business called Friends Fish Hatchery Ltd. It outlines the company's vision, organizational structure, production process, costs, market analysis, and goals. The business aims to produce high-quality fish using biofloc technology while creating jobs and improving public health. An analysis shows the business could become profitable within 3 years and satisfy growing domestic and global demand for fish.
The document discusses the importance of innovation for driving economic growth and addresses future challenges related to food security, energy security, and climate change. It argues that life sciences and biotechnology will be major contributors in developing solutions through areas like agriculture, industrial biotechnology, and healthcare. The opportunities in developing a biobased green economy are large, with estimates that the sector could represent 25% of global GDP by 2030. Malaysia is encouraged to access innovation globally to help achieve its goal of becoming a developed nation.
The Industrial Era has drawn some 54% of humanity into 1% of the global landmass in support of Maslows Heirarchy (MH) of needs and have led to evermore crowded suburbs and problematic congestion. These factors call for de-citification and re-urbanization some 50 miles from large and congested cities. These urbanettes are master planned and distributed lifestyle ecosystems. Urbanettes are self sustaining ecosystems that require energy, communications, healthcare, jobs and housing while contributing to local supplies for regional cities. See: https://jobenomics.com/wp-content/uploads/2019/10/Millennium-Regional-Development-Corp-MRDC-Fulcrum-Corridor-Complex-Project-April-2019.pdf
This document provides an introduction and overview of bioplastics. It defines key terms like biodegradable, biobased, and standards for compostability. The drivers for bioplastics include being renewable, having reduced environmental impact, and addressing end-of-life disposal issues. Projections show strong growth in bioplastics production and demand over the next 5 years. While compostable bioplastics are growing, durable bioplastic applications are expected to account for nearly 40% of the market by 2011 to address performance shortcomings of compostable plastics. Emerging technologies may expand bioplastic uses in electronics and automotive industries.
Ek Titli is an Indian startup based in Pune that works in organic farming and maintains a portal for green initiatives. It helps farmers transition to organic methods and sets up micro-farms for citizens to grow their own food organically. Ek Titli believes small changes today can lead to big changes tomorrow and showcases positive environmental work on its portal. It has set up two organic farms, transforming empty spaces into productive gardens growing vegetables, salads and herbs for local residents in a sustainable way.
Global Energy Technology Group plans to acquire farms in California to develop renewable energy projects using jatropha biodiesel. The company will purchase land and develop jatropha plantations to produce oil for biodiesel production. Jatropha is a drought-resistant crop suitable for marginal lands that produces oil for biodiesel without competing with food crops. The company expects to benefit from government incentives for biodiesel production and carbon credits from the jatropha plantations.
Joseph Adelegan: Cows to Kilowatts: Methane Emission from anaerobic digestion...AfricaAdapt
The document discusses a project called "Cows to Kilowatts" which aims to convert slaughterhouse waste from cows into biogas and fertilizer in Ibadan, Nigeria. It would do this through building biogas plants at slaughterhouses. The biogas could then be sold as affordable cooking fuel to urban poor households, providing energy access and health benefits. Additionally, the project would produce organic fertilizer from the waste, reducing pollution. Financial projections estimate the first biogas plant would become self-sustaining within 2 years and provide over $3.5 million in returns over 15 years of operation.
This document provides a summary of the GreenWorld Farm whitepaper, which proposes using blockchain technology to promote organic farming on a global scale. The summary is:
GreenWorld Farm plans to use blockchain and their GWF token to support organic farming worldwide. Their token sale aims to fund organic crop and livestock production across multiple farms. Revenue from exported organic products sold using GWF tokens will make organic food more affordable. The whitepaper outlines challenges with conventional farming and how blockchain can provide transparency, fair prices for farmers, and healthier food.
Dr. Amy Batal - Antibiotic Stewardship Update ProgressJohn Blue
Antibiotic Stewardship Update Progress - Dr. Roger Saltman, Group Director Cattle and Equine Technical Services, Zoetis; Ms. Shannon Wharton, Research Manager, Hy-Plains Feedyard; Mr. Joe Swedberg, Chairman of the Board, Farm Foundation, Hormel Foods Corporation (retired); Dr. William T. Flynn, Deputy Director, Science Policy, Center for Veterinary Medicine, FDA; Dr. Amy Batal, Corporate Nutritionist, Sanderson Farms, from the 2017 NIAA Antibiotic Symposium - Antibiotic Stewardship: Collaborative Strategy for Animal Agriculture and Human Health, October 31 - November 2, 2017, Herndon, Virginia, USA.
More presentations at http://www.swinecast.com/2017-niaa-antibiotic-symposium-antibiotic-stewardship
Agricultural engineering can help increase food production to address issues like overproduction, underproduction, and rural job losses. It allows farms to be harvested more quickly through machinery. However, it also contributes to environmental issues like releasing greenhouse gases and damaging natural ecosystems. "Green" agricultural engineering using biofuels could reduce emissions and provide more sustainable options. While increasing farm size and production, it may also decrease the number of people needed to work on farms and affect rural societies. Overall, agricultural engineering presents both opportunities and challenges for food supply, the environment, and rural communities.
Yogya sustainable solutions vacuum dried fruits and veg model and ideaActionroom
YSS presentation is about creating social business by forming Producer company of the rural youth/ women and equip them with latest technology in food processing. My product will be vacuum dried fruits, vegetables, nuts, dry fruits, fish, prawns.
Credit Fund Project Letter for the Government of a StateClaudia Gale
The document proposes a $25 million per year, 0% interest credit fund over 5 years to provide organic bio-fertilizers to farmers in the state to phase out chemical agriculture. The bio-fertilizers would enable farmers to increase yields while lowering costs. The credit fund would allow farmers to pay for the fertilizers after harvesting, and free up government resources for infrastructure development. The proposal claims the organic fertilizers can eradicate chemicals in 3-5 years while increasing production sustainability and soil health. Technical support would be provided to farmers on organic methods.
The Challenges and Opportunities of Conversion to Organic Vegetable Production
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For more information, Please see websites below:
`
Organic Edible Schoolyards & Gardening with Children
http://scribd.com/doc/239851214
`
Double Food Production from your School Garden with Organic Tech
http://scribd.com/doc/239851079
`
Free School Gardening Art Posters
http://scribd.com/doc/239851159`
`
Companion Planting Increases Food Production from School Gardens
http://scribd.com/doc/239851159
`
Healthy Foods Dramatically Improves Student Academic Success
http://scribd.com/doc/239851348
`
City Chickens for your Organic School Garden
http://scribd.com/doc/239850440
`
Simple Square Foot Gardening for Schools - Teacher Guide
http://scribd.com/doc/239851110
Agriculture is one of the heaviest polluters due to farm equipment relying on fuel and crops being used in petroleum products. The agricultural industry needs to reduce its carbon footprint and find more sustainable practices as the global demand for food is expected to double by 2050. Combining techniques from small farms in developing countries with modern technology could provide a solution, but any approach would need long-term research on soil conditions.
Production of Bioplastic Film using Biodegradable Resin, PLA (Polylactic Acid)Ajjay Kumar Gupta
Production of Bioplastic Film using Biodegradable Resin, PLA (Polylactic Acid). Biodegradable Film Manufacturing Business - Sustainable Alternative to Plastics
Bioplastic is a biodegradable material that come from renewable sources and can be used to reduce the problem of plastic waste that is suffocating the planet and polluting the environment.
These are 100% degradable, equally resistant and versatile, already used in agriculture, textile industry, medicine and, over all, in the container and packaging market, and biopolymers are already becoming popular in cities throughout Europe and the United States for ecological reasons: they are known as PHA.
Advantages of Bioplastics:
• They reduce carbon footprint
• They providing energy savings in production
• They do not involve the consumption of non-renewable raw materials
• Their production reduces non-biodegradable waste that contaminates the environment
• They do not contain additives that are harmful to health, such as phthalates or Bisphenol A
• They do not change the flavor or scent of the food contained
See more
https://goo.gl/54LqSQ
https://goo.gl/EaPVp1
https://goo.gl/QJQWFT
Contact us:
Niir Project Consultancy Services
An ISO 9001:2015 Company
106-E, Kamla Nagar, Opp. Spark Mall,
New Delhi-110007, India.
Email: npcs.ei@gmail.com , info@entrepreneurindia.co
Tel: +91-11-23843955, 23845654, 23845886, 8800733955
Mobile: +91-9811043595
Website: www.entrepreneurindia.co , www.niir.org
Tags
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The document provides information about setting up a vacuum fried snacks manufacturing plant producing vegetable chips from sweet potato, beans, and beetroot. It includes a table of contents that lists topics like project location details, types of chips, product specifications, manufacturing process, machinery requirements, raw materials, costs, financial projections, market analysis, and more. The document appears to be a feasibility report for a proposed vacuum fried vegetable chips manufacturing business.
This document proposes a feasibility study for a livelihood project that would produce a lemongrass and ginger liniment for PDLs (persons deprived of liberty) at the General Santos City Jail. The project aims to provide income for incarcerated individuals to support their families. It analyzes market demand, production costs, financial projections, and management structure. If viable, the project could help rehabilitation efforts and reduce recidivism through job skills and financial independence.
Similar to maxjacksonpptpresentationproject_acct33032015__0361379 (1) (20)
1. Thermal Organics
a friend to all Farmers of the World Company
By Max Jackson
Contemporary Control Systems: ACCT- 6302 – 2015
2. Mission Statement
The Mission of Thermal Organics is to develop Viable,
“Sustainable & Affective” pesticide that not only kills of the
insects that destroy and lay waste to the farmers crops of the
world before harvest and after harvest season, but at the same
time, protect the environment and create a better brand of
product for the farmer that will give them a sizable return on
investment and do it in a socially responsible manner that not
only reduces environmental harm to the land the farmer grows on
but also provide a better outlook on the financial costs of food
supply to the world, while at the same time emphasizing the
elimination of toxins, growth hormones and antibiotics that
commonly found in some pesticides.
3. Vision Statement
“The Vision of Thermal Organics is to produce a pesticides that
will not only be considered environmentally friendly and
protect the crop of the farmer but will also provide nutrients in
form of liquid proteins that will enrich the soil that the farmer
currently farms on. It is by doing this, we believe that we will
not only feed America but we can also feed the world.”
By chemically engineering and producing such pesticides that
have such enriched liquid proteins benefits, we feel that we can
have an industry affect on farmers that currently use hazardous
chemical pesticides that are not only harming the foods we eat
but at the same time the global environment.
4. The Pitch
Based on studies, by 2050, it is believed that the global population will have increased
and is expected to jump to staggering rate from 7 Billion People of the world to 9.5 Billion
people in the world. That is a lot of mouths to feed according to some farmers. 2050! 7
Billion People of the world to 9.5 Billion people! Not only this, but according to the 2012
Organization for Economic Co-operation and Development and the United Nation’s Food
and Agricultural Organization feel that food production must increase by 60% to 70% in the
next 50 years to meet and stay at pace with the projected global demand. This will put
massive amounts of pressure on all farmers. Not just in the US, but the World. Food
Production is critical and is the key element that will make this happen along with we feel
is a Global Partnership. The sad truth is if farmers and the governments don’t start working
now on viable solutions that will sustain current food productions in order for it to be even
be long term, the additional 2.4 billion people will create massive pressure on food
resources and does not sit well for future food security. The biggest problem for farmers is
that the majority of commercial pesticides in use contain what is called DDT, are no longer
on the market, but others remain in use. The concentrations of DDT is higher than most
pesticides, and because a lot of farmers tend to use DDT and other pesticides like it, the
farmer and general public faces a significant health risk. For example, studies show that
5. The Pitch
First all life is made what is called DNA (Deoxyribonucleic Acid), which chief building block
of all life. Each strain of DNA is composed of genes. These genes carry instructions and
determine how an organism or in this case in orange, in apple or how anything will grow,
live and even look. By Genetic Engineering, we propose using and converting cells from
the high-density DNA which can be used to replace the current method in use, DDT,
centrifuging the cells through a high concentration process that is not used in commercial
farming as a means of protecting the a farmers harvest. This particular process which is not
in used would cultivate more than 400 million acres of farmland worldwide are now used
not just to grow traditional crops such as fruits and vegetable but also cotton, corn,
soybeans and rice. For example, just in the United States, soybeans, corn and cotton make
up 93%, 88% and 94% of the total acreage of the respective crop for most farms. With
Genetic Engineering, we at Thermal Organics feel we can increase these numbers by
tenfold. Furthermore, a majority of the crops grown today are in some cases only
engineered to be resistant to just every day problems that the farmers experience on a
regular basis however, such as high humidity, dry air and even bugs. With Genetic
Engineered Pesticides, the farmer would no longer have to deal with issues that concern
bugs, herbicides, fungicides but it will also enrich the ground allowing a better and
sustainable product that the farmer can be proud of over time. No only this, but by means
of the Genetic Engineering this means no more chemicals in use like DDT, which means
current crops that were once treated with DDT would no longer needed due to Genetic
Engineering because those crops would be able to withstand being sprayed with DDT or
other weed killers or pesticides leading to crops and plants in the field to wither or even
die while at the same time some of the crops in some regions of the world would be
7. Production Budget
Production Budget
Beg Finished Good Inv 500
Ending Inv Factor 0.1
QTR 1 of Next YR 6000
QTR 1 QTR 2 QTR 3 QTR 4 YEAR
Sales in Units 5,000 7,500 10,000 5,000 27,500
Desired End Inv 750 1,000 500 600 600
Less: Beg INV 500 750 1,000 500 500
Prod Budget Units 5,250 7,750 9,500 5,100 27,600
9. Materials Purchases Budget A
Direct Material Purchases Budget Material A
Material A per Unit 1 Cost A 250 Inventory
Factor
10%
Beg Inv A 250 End Inv A 300
Commercialized DNA QTR 1 QTR 2 QTR 3 QTR 4 YEAR
Units to Produce 5,250 7,750 9,500 4,560 27,060
Direct Mat Per Unit 1 1 1 1 1
Prod needs for A 5,250 7,750 9,500 4,560 27,060
Desired Ending Inv 775 950 456 300 300
Total Needs for A 6,025 8,700 9,956 4,860 27,360
Less: Beg Inv 250 775 950 456 250
Dir Mat A to purchase 5,775 7,925 9,006 4,404 27,110
Unit Cost Item A 250.00$ 250.00$ 250.00$ 250.00$ 250.00$
Ttl Purchase Cost 1,443,750$ 1,981,250$ 2,251,500$ 1,101,000$ 6,777,500$
10. Materials Purchases Budget B
Direct Material Purcahses Budget Material B
Material.B per Unit 1 Cost B 325 Inventory Factor 10%
Beg Inv B 250 End Inv B 300
DNA CENTRUGING QTR 1 QTR 2 QTR 3 QTR 4 YEAR
Units to Produce 5,250 7,750 9,500 4,560 27,060
Direct Mat Per Unit 1 1 1 1 1
Prod needs for B 5,250 7,750 9,500 4,560 27,060
Desired Ending Inv 775 950 456 300 300
Totaol Needs for B 6,025 8,700 9,956 4,860 27,360
Less: Beg Inv 250 775 950 456 250
Dir Mat B to purchase 5,775 7,925 9,006 4,404 27,110
Unit Cost Item B 325.00$ 325.00$ 325.00$ 325.00$ 325.00$
Ttl Purchase Cost B 1,876,875$ 2,575,625$ 2,926,950$ 1,431,300$ 8,810,750$
Ttl Purchase Cost A 1,443,750$ 1,981,250$ 2,251,500$ 1,101,000$ 6,777,500$
Ttl Purchase Cost B 1,876,875$ 2,575,625$ 2,926,950$ 1,431,300$ 8,810,750$
Ttl Direct Mat Purch Cst 3,320,625$ 4,556,875$ 5,178,450$ 2,532,300$ 15,588,250$
13. Cost of Goods Sold Budget
COGS
1 2 3 4 Pro Forma
Direct Materials Used $3,320,625 $4,556,875 $5,209,500 $2,811,750 $15,898,750
Direct Labor Used $2,887,500 $4,262,500 $5,225,000 $2,805,000 $15,180,000
Overhead $856,250 $1,168,750 $1,387,500 $837,500 $4,250,000
Budgeted Manufacturing Costs $7,064,375 $9,988,125 $11,822,000 $6,454,250 $35,328,750
Beginning Finished Goods Inventory $825,000 $1,237,500 $1,650,000 $825,000 $825,000
Goods Available for Sale $7,064,375 $9,988,125 $11,822,000 $6,454,250 $35,328,750
Less: Ending Finished Goods Inventory -$1,237,500 -$1,650,000 -$825,000 -$990,000 $990,000
Budgeted Cost of Goods Sold $9,126,875 $12,875,625 $14,297,000 $8,269,250 $35,163,750
Quarter
14. Pro Forma Income Statement
Sales Revenue $45,375,000
Cost of Goods Sold -35,163,750
Gross Margin $10,211,250
Selling and Administrative
Expenses -4,325,000
Income from Operations $5,886,250
Depreciation Expense -225,000
Net Income $5,661,250
15. Pro Forma Balance Sheet
Assets: Liabilities and Shareholder's Equity:
Cash $5,000,000 Liabilities:
Accounts Receivable $2,750,000 Accounts Payable - Direct Materials $937,250
Direct Materials Inventory $172,500 Line-of-Credit Payable $3,000,000
Finished Goods Inventory $990,000 Total Liabilities $3,937,250
Property, Plant and Equipment $4,500,000 Shareholder's Equity:
Accumulated Depreciation (this period only) ($225,000) Capital Stock $2,000,000
Net Property, Plant and Equipment $4,275,000 Retained Earnings $6,250,250
Total Assets $13,187,500 Total Shareholder's Equity $8,250,250
Total Liabilities and Shareholder's Equity $12,187,500
17. Organizational Structure
CEO- Work with Board of Directors to formulate both Mission and Vision Statements
and to develop corporate strategy. Communicate mission, vision and strategy to
management team.
VP Operations- translate strategy into tactical processes in order to meet corporate
objectives while adhering to vision and mission statements. Determine operational
performance metrics.
VP Marketing- set sales goals and budget. Determine performance metrics for sales
and marketing staff
Controller- Develop management control systems. Manage internal control,
efficiency of management system, accuracy of information and monitor and mitigate
risk.
18. The long term strategy of Thermal Organics would be to
patent the process on which we feel would make us the only
company in the industry to have a unique process that does
what it says it does regarding crop protection. The second
strategy would be to license the technology worldwide so
that Genetic Engineered Crop Production could be used and
produced and incorporated within all domestic and global
operations of farming through out the world and to the
point where the Genetic Engineered Process is the only
process for the environment.
Long Term Strategy