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Carbon Sequestration Fertilizer Housing Manure Pig Manure Pigs Plastic Output sequestration

Carbonic LLC Video

This video is the Carbonic LLC submission for round 2 of the Energy/Cleantech/Water track of the Carlson School of Management, 2021 Minnesota Cup Competition.

Please share and like on YouTube. Thanks for your help.

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@elonmusk Agricultural Waste Ash Byproduct Carbon Carbon Sequestration Elon Musk Glue Housing Plastic Bricks Plastic Input Plastic Output Process sequestration Sewage Uncategorized

Carbon Sequestration Workflows

Carbon Sequestration Process (CSP)

© 2018 Lyno Sullivan

Carbon sequestration is important. This document proposes a Carbon Sequestration Process (CSP) that alters traditional carbon flow systems. This drawing depicts an alternative carbon routing solution.

CSP is a safe way to extract carbon from sewage. It can be done in such a way that pathogen free water is produced and may then be used again.

The CSP uses a carbon gasification system, a CGS, which converts agricultural waste, waste in general, garbage, plastic, oil, coal, and tar into methane (CH4). Most of these carbonaceous materials reduce into methane (CH4). The ash by-product makes great cement.

The CSP uses methanogen bacteria to remove carbon dioxide (CO2) from the atmosphere and convert it into methane. The methane can be used to produce gas fuel, liquid fuel, plastic, and with the addition of nitrogen, fertilizer can be produced. The plastic can be formed into shaped bricks usable for construction purposes. Use CGS ash cement, plastic bricks, and glue to build housing.

What can be done with an island of floating garbage? We might construct a trawler that hoists the garbage into a carbon gasification system (CGS) ship which produces methane used in the propulsion and electrical generation engines.

Categories
@elonmusk Carbon Carbon Sequestration CGS Housing Plastic Bricks Plastic Output Process sequestration

A Simple Carbon Sequestration Vision

© 2019 Lyno Sullivan

“There is an island of floating garbage in the Pacific Ocean.”

[CGS-US_Navy_110315-N-IC111-592_-_Tsunami_damage_of_Rikuzentakata]

Shoreline tsunami devastation produces tons of floating garbage. That’s a lot of carbon locked up in that floating island of garbage. Carbon sequestration is important. This document explores the vision behind a Carbon Sequestration Process based upon a Carbon Gasification System (CGS) that alters traditional carbon flow systems.

Up until now plastic recycling has been a challenge. Every day approximately 1,369 tons of Styrofoam is buried in U.S. landfills. That’s upwards of a million cubic feet per day.

The total generation of municipal solid waste (MSW) in 2015 was 262.4 million tons (U.S. short tons, unless specified), or about 4.48 pounds per person daily. This is an increase from the 259 million tons generated in 2014 and the 208.3 million tons in 1990. There is a lot of carbon in all that garbage. Much of it is accessible through a carbon gasification system.

[CGS Carbon Sequestration Process]

Methane can be used to produce gas fuel, liquid fuel, plastic, and with the addition of nitrogen, fertilizer can be produced. The plastic can be formed into shaped plastic bricks usable for construction purposes. CGS ash based cement along with plastic bricks and glue can be used as construction materials for housing. Bricks formed in this process can be shaped into plastic interlocking bricks. This may be the best sequestration method yet devised.

What can be done to clean up an island of floating garbage? We might use a trawler with a crane on board that hoists the garbage onto a carbon gasification system (CGS) equipped ship. The resultant fuel produced by the process can then be used in the propulsion of the ships and electrical generation engines using DME.

“Convert islands of floating garbage into islands of affordable housing. Lots of sun for gardens to feed the residents. Sun for electricity.”

[CGS-North_Pacific_Gyre_World_Map]

Floating island hotels can be built from carbon fiber reinforced plastic hulls which, with enough ballast, could float through a typhoon. Hotel guests will pay well for accommodations on such a large floating island. The workers living on the island can earn a good living, selling to tourists from their kitchen, native gift shop, spa, etc., limited only by their imagination with visions of a “life well lived”.

[Carbon Sequestration #2 Vision LLS]

This post contains an ‘Elon Musk @elonmusk class’ vision for his consideration for the prize for the best Carbon Sequestration solution on earth.

Categories
Carbon Carbon Gasification Solution Carbon Sequestration Manure Pig Manure Pigs Plastic Bricks Plastic Input Plastic Output sequestration

Pig Farms for 200 Pigs

By Lyno Sullivan, Carbonic LLC CEO,
Tuesday April 27, 2021

Introducing The Pig Farm Owner

Gayle is a cousin of mine. I visited his family farmstead a few years back as a starting point for my personal enlightenment. The initial marketing strategy for Carbonic Live is to reach out to pig farmers for information, contacts, and potential customers. My ultimate goal for this research is to see who would consider purchasing a $500,000 C2HDPE carbon sequestration product being sold by Carbonic LLC of Woodbury, Minnesota.

“Pig Manure into Plastic”

The simple story taught by Lyno to Carbonic Live students.

Since Carbonic Live needs pig manure, it makes sense to reach out to potential customers whose business is raising and selling pigs. I contacted my cousin Gayle and we had a great conversation about raising pigs. Gayle says costs are up and income is down. “Barely making a living”, he said “I’m gonna go back to raising 6 hogs just for my own needs.”

Introducing the Main Character

As we continued to talk, I guided the conversation toward the business of raising pigs and the management of large amounts of pig manure. I asked him some questions and as he answered, I began to understand what it took to raise 200 pigs for market.

Let The Manure Lay Where Deposited

On my cousin’s farm, the majority of the manure drops on the ground as his pigs generally live outdoors in a fenced in pasture. This makes for a very fertile plot of land and not a big manure management problem. Gayle went on to explain that he kept his pigs out of the barn as much as possible while the piglets are young so they don’t bunch up and suffocate one another. While farrowing (birthing), a sow usually remains in the barn in a small pen. Gayle built heating systems to keep the piglets warm during time spent in the barn early on. The inherent danger for her little ones is when she lays down, and may accidentally lay on a newborn and kill it, or trap one in a corner so it cannot feed. Farmers lose some piglets this way, so to minimize this danger, Gayle kept the sows and piglets in the pasture soon after birth.

Straw Pig Nests

Anticipating my concern for the welfare of pigs sleeping outside on the ground, Gayle explained that he would haul round bales of hay into the pasture for the pigs to eat and bales of straw for pig comfort, where most interesting to me, they would use the straw to build nests. Pigs are natural nest builders. He said the pigs would climb into a nest formed from straw and hay much as a human would if sleeping in a hay bale. Whenever Gayle left a fresh round bale in the pasture, a new nest would be built soon thereafter. Gayle laughed when he explained how the pigs would climb out of a warm and cozy nest all shiny and clean. Pigs are very clean animals. They separate their manure production from their living space. Pigs are also very intelligent and can become protective of their humans, somewhat like dog behavior.

Pregnant Sows

Gestation: the period from when a sow is bred until farrowing, easily remembered as 3 months, 3 weeks, 3 days. Farrowing: giving birth to a litter of pigs. Farrowing stall: individual housing where a sow (mother pig) gives birth.

https://www.ilpork.com/

A short lactation length (12-14 days) holds pig health and performance benefits. But sow physiological limitations restrict lactation lengths to about 17 days for consistent breeding and reproduction performance.

https://www.nationalhogfarmer.com/mag/farming_impact_lactation_length

Care of Pigs From Farrowing to Weaning

John C. Rea
Department of Animal Sciences

Excerpted from https://extension.missouri.edu/publications/g2500 See Table 1 – Gestation based on 114-day gestation time.

The average gestation period for sows is 114 days. To prepare for farrowing, producers should know when sows are due. They also need a method to identify all sows. The gestation table says gestation is based on a 114-day gestation time) and is great for determining farrowing date, based on the date sows are bred. Once born, the most critical period in the life cycle of a pig is from birth to weaning. On the average, about two pigs per litter are lost during this period. Poor management is the major contributing factor.

Clemson University Table

The following table was used for the 5 tons of fresh manure calculated using a Minnesota standardized herd which is calculated from 3,000 farms in Minnesota of 1,000 pigs each producing manure at a rate of 10 pounds per day.

Back to Gayle’s 200 Pig Farm

Two pigs per litter is about 10% loss of meat sales and manure production. Raising pigs in pastures makes sense for a 200 pig farm containing 1 boar and 12 sows with litters of 15 surviving pigs each. It is good for Gayle that he has no pig manure problem except for the stink of pig manure emanating from the farm.

Some Nice Innovations

Gayle added some interesting innovations to his farm. Gayle used 55 gallon barrels with a doorway for the pig to go in and out and a chute for adding food and straw for a snug bed. He rigged up heat lamps in the barrels and some in the barn for nursing pigs.

Conversation Ends

It was quite interesting to converse with Gayle about pig farming done his way on a 200 pig farm. I learned a lot and dispelled some wrong information. If I can do this a few more times I will have gained valuable information, and some early adopters who will say YES to a $500,000 carbon sequestration solution for turning a stinky pig problem into an income goldmine from pig manure.

Categories
CGS Housing Plastic Bricks Plastic Input Plastic Output sequestration

Carbon Sequestration Vision

A Simple Carbon Sequestration Vision

© 2019, 2021 Lyno Sullivan

This page is https://carbonicprod.wpengine.com/2021/02/06/carbon-sequestration-vision/

See also

https://carbonicprod.wpengine.com

CCX1550 (C0101 CGS done one-pager Carbon Gasification Sequestration Solution)

“There is an island of floating garbage in the Pacific Ocean.”

[CGS-US_Navy_110315-N-IC111-592_-_Tsunami_damage_of_Rikuzentakata]

Shoreline tsunami devastation produces tons of floating garbage. That’s a lot of carbon locked up in that floating island of garbage. Carbon sequestration is important. This document explores the vision behind a Carbon Sequestration Process based upon a Carbon Gasification System (CGS) that alters traditional carbon flow systems.

Up until now plastic recycling has been a challenge. Every day, approximately 1,369 tons of Styrofoam is buried in U.S. landfills. That’s upwards of a million cubic feet per day.

The total generation of municipal solid waste (MSW) in 2015 was 262.4 million tons (U.S. short tons, unless specified) of MSW in 2015, approximately 3.5 million tons more than the amount generated in 2014. MSW generated in 2015 increased to 4.48 pounds per person per day. This is an increase from the 259 million tons generated in 2014 and the 208.3 million tons in 1990. There is a lot of carbon in all that garbage. Much of it is accessible through a carbon gasification system.

[CGS Carbon Sequestration Process]

Syngas and natural gas methane can be used to produce gas fuel, liquid fuel, plastic, and with the addition of nitrogen, fertilizer can be produced. The plastic can be formed into shaped plastic bricks usable for construction purposes. Use CGS ash based cement, plastic bricks, and glue to make housing. Housing bricks can be shaped into plastic interlocking bricks. This may be the best sequestration method yet devised.

What can be done with an island of floating garbage? We might construct a trawler that hoists the garbage into a carbon gasification system (CGS) ship which produces methane used in the propulsion and electrical generation engines using DME.

“Convert islands of floating garbage into islands of affordable housing. Lots of sun for gardens to feed the residents. Sun for electricity.”

[CGS-North_Pacific_Gyre_World_Map]

Floating island hotels can be built from carbon fiber reinforced plastic hulls which, with enough ballast, could float through a typhoon. Hotel guests will pay well for accommodations on such a large floating island. The workers living on the island can earn a good living selling to tourists from their kitchen, native gift shop, spa, or whatever fills their imagination with visions of a “life well lived”.

[Carbon Sequestration #2 Vision LLS]

Categories
Agricultural Waste Ash Byproduct Carbon Carbon Gasification Solution Cement CGS Coal Glue Housing Municipal Waste Oil Plastic Bricks Plastic Input Plastic Output Process sequestration Sewage

Best Carbon-Capture Technology

(c) 2021 By Lyno Sullivan, Friday, January 22, 2021 at 13:13 PM

Elon Musk says he will award $100 million in

a contest meant to encourage more-innovative carbon-capture technologies

#elonmusk #carbongasification #carbonsequestration
@elonmusk @team
team@carbonic.live

When Elon Musk says he will pay $100 million to locate the best carbon-capture technology, he is speaking the language of Carbonic.Live where our motto is “We Do Carbon Right”. Carbonic.live is an obvious contender for the prize. We have a real shot at winning this prize based upon the material presented in this post and supporting materials.

Hundred Million Dollar Answer

Included in this post are drawings and writings applicable to solving the carbon-capture technology. The problem of excess carbon is easily solved.

The atmospheric carbon level can be held in stasis by changes in the world’s human-safe plastic supply. If more carbon dioxide is needed in the atmosphere, then humans can safely combust sequestered carbon materials. in a Carbon Gasification Solution (CGS) fired plant.

If less carbon dioxide in the atmosphere is desired, several different things can be done. One common answer is to plant more trees. While planting trees would be of benefit, it is only a partial short-term answer to a long-term problem.

The proposed carbon sequestration solution involves burning biomass, coal, waste hydrocarbons and such, through a carbon gasification system where the output is human-safe plastic such as HDPE. All this and more can be built and used at a cost of $1.5 million to $4.5 million per CGS facility depending on the population served.

Calculations were done by a carbonic.live spreadsheet and established that three Biomass and Coal Gasification plants would be able to handle the entire pig sewage supply created by the pork production necessary to feed twelve-thousand (12,000) humans in a net-negative carbon polygon incorporating. Sequestration in human-safe plastic lasting decades to hundred year lifetime. Then recycle the old plastic into new plastic using the Biomass and Coal Gasification process also known as the Carbon Gasification Solution (CGS).

12,000-human-polygon-pig-poop-solution-in-blue

Elon Musk’s One Hundred Million Dollar Contest Best Solution

https://www.businessinsider.com/elon-musk-100-million-prize-carbon-capture-technology-contest-2021-1

“Elon Musk teased his latest philanthropic endeavor on Thursday: a contest meant to encourage more-innovative carbon-capture technologies.”.

How About The Plastic In The Oceans?

110315-N-IC111-592 WAKUYA, Japan (March 15, 2011) An aerial view of damage to Wakuya, Japan after a 9.0 magnitude earthquake and subsequent tsunami devastated the area in northern Japan. Ships and aircraft from the Ronald Reagan Carrier Strike Group are conducting search and rescue operations and re-supply missions as directed in support of Operation Tomodachi throughout northern Japan. (U.S. Navy photo by Mass Communication Specialist 3rd Class Alexander Tidd/Released)

C0101 CGS P1 Full US_Navy_110315-N-IC111-592-_Tsunami_damage_of_Rikuzentakata crop wide

One beautiful thing about the Carbon Gasification Solution (CGS) is that the a floating CGS unit can produce enough gas and liquid fuel supply to power the CGS ship as it moves its way through a field of plastic bits and pieces being filtered out by the forward motion of the CGS ship relative to current flow. The CGS could be mounted well below waterline for added ballast for floating what is, in essence, a blast furnace heatable at up to 1500 degrees Fahrenheit. A submarine hull one atmosphere below the surface, with its ballast would create a living unit. Adding carbon fiber to the plastic changes its material properties.

Types of Gasifiers

http://www.syngastechnology.com/gasification_2.html

How About Human Sewage

In a polygon encompassing twelve thousand (12,000) humans, getting rid of human sewage waste can be a problem. Rather than dumping it in a nearby waterway suppose sewage was diverted into carbon gasification solution (CGS) system. Before we tackle human sewage we are better served by doing a prototype first.

R&D: Prototype Pig Poop

Pig poop processed by a carbon gasification system (CGS) produces liquid and solid waste output. These outputs lend themselves to a predictable outcome. This serves as an excellent R&D testbed for swine and human sewage handling. The backend will produce HDPE with the right catalysts.

Drawings

CGS Carbon Cycle

The Carbon Gasification Solution (CGS) is part of the CGS Carbon Cycle.

CGS Syngas Supply

A02 CGS+Syngas+Supply

There exist various input supplies to the carbon gasification solution (CGS).

A03 CGS+Velocity
A04 CGS+Reactor+Template

A05 CGS+Gravity+Reactor
A06 CGS+Reactor+Plasma
B01 CGS+Carbon+Sequestor
C01 CGS+Water+Supply
C02 CGS+Electricity
C03 CGS+Hydrogen
C04 CGS+Oxygen
C05 CGS+Syngas
png02 CGS+Time+Investor+Intake
png03 CGS+Ideas
png04 CGS+Talent+Attraction
png05 CGS+Schools
png06 CGS Mentors
png07CGS+Budget