Main Page: Difference between revisions

From NOWA-CL
Jump to navigation Jump to search
 
(57 intermediate revisions by 2 users not shown)
Line 1: Line 1:
{{#description2:Naturally Occurring Widely Available Chemical Library}}
==Products==
==Products==
* [[Video index|Videos]] are one of our primary products
* [[Video index|Videos]] are one of our primary products
* [[Library|Our chemical library]] lists the '''materials we've already produced'''.
* [[:Category:Library|Our chemical library]] lists the '''materials we've already produced'''.
* [[:Category:NOWA|The NOWA category]] lists the materials we consider '''Naturally Occurring and Widely Available'''.
* [[:Category:NOWA|The NOWA category]] lists the materials we consider '''Naturally Occurring and Widely Available'''.


Line 20: Line 21:
====Justification====
====Justification====
Pure (ish) water is an essential for life,  not just chemistry. Preparing it at scale is important.
Pure (ish) water is an essential for life,  not just chemistry. Preparing it at scale is important.
====Path====
====Path====
Distilling impure water gives a distillate with no dissolved solids or biological pathogens. There are compounds which form azeotropes with water, so the distillate may not be ''completely'' pure, but it will be adequate for our  purposes.
Distilling impure water gives a distillate with no dissolved solids or biological pathogens. There are compounds which form azeotropes with water, so the distillate may not be ''completely'' pure, but it will be adequate for our  purposes.


===A diversion===
{| class="wikitable dtab"
|+Ethanol and  Acetic acid via monads
!NOWA?
!Substance
!Status
|-
|{{libtag}}||[[Water]]||'''Done'''
|-
|{{nowatag}}||[[Honey]]||'''Pending'''
|-
|{{nowatag}}||[[Saccharomyces cerevisiae|Yeast]]||'''Pending'''
|-
|{{libtag}}||[[Ethanol]]||'''Pending'''
|-
|{{nowatag}}||[[Acetobacter]]||'''Pending'''
|-
|{{libtag}}||[[Acetic acid]]||'''Pending'''
|}
====Justification====
[[Ethanol]] and [[Acetic acid]] are both produced as waste products by microbes. We will turn aside from our stream of logical goals to explore the principle of  "Let nature do the heavy lifting."
===Sodium Hydroxide===
{| class="wikitable dtab"
|+Lye via lime
!NOWA?
!Substance
!Status
|-
|{{nowatag}}||[[Limestone]]||'''Pending'''
|-
|{{libtag}}||[[Calcium oxide]]||'''Pending'''
|-
|{{nowatag}}||[[Wood ash]]||'''Pending'''
|-
|{{libtag}}||[[Sodium hydroxide]]||'''Pending'''
|}
====Justification====
Sodium hydroxide is an essential [[:Category:Industrial Chemicals|industrial chemical]] and is arguably the most commonly used alkali in chemistry.
====Path====
* Currently, sodium hydroxide is made by the electrolysis of [[salt water]]. We are excluding electrolysis until we produce sulfuric acid, so this isn't an option.
* We will be making a mixture of [[sodium hydroxide]] and its cousin [[potassium hydroxide]], but for our purposes, we will not need to separate them.
===Ammonia===
{| class="wikitable dtab"
|+Ammonia via urea hydrolysis
!NOWA?
!Substance
!Status
|-
|{{nowatag}}||[[Urine]]||'''Pending'''
|-
|{{libtag}}||[[Urea]]||'''Pending'''
|-
|{{libtag}}||[[Water|Distilled water]]||'''Pending'''
|-
|{{libtag}}||[[Sodium hydroxide]]||'''Pending'''
|-
|{{libtag}}||[[Ammonia]]||'''Pending'''
|}
====Justification====
[[Ammonia]] is an essential [[:Category:Industrial Chemicals|industrial chemical]]. It is the primary source of non-elemental [[nitrogen]]. Thus, producing some must be an early goal.
====Path====
* Currently, ammonia is mostly made by the [[Haber process]]. Unfortunately this requires  high temperatures, high pressures, and catalysts to work at anything more than a "droplets" scale,  definitely not  benchtop chemistry.
* It may be worth noting that the urine of some animals (fish and mice, for instance) is almost entirely ammonia, so collecting vast amounts of mouse urine is an alternative. We will not be exploring this.
* We will hydrolyze [[urea]] which is a naturally occurring component of the urine of most large animals, including humans. This we can do on a benchtop


===Sulfuric Acid===
===Sulfuric Acid===
Line 100: Line 32:
!Status
!Status
|-
|-
|{{libtag}}||[[Ammonia]]||'''Pending'''
|{{libtag}}||[[Copper (II) chloride]]||'''Prev'''
|-
|{{nowatag}}||[[Sea salt]]||'''Pending'''
|-
|{{nowatag}}||[[Carbon dioxide]]||'''Pending'''
|-
|{{libtag}}||[[Ammonium chloride]]||'''Pending'''
|-
|{{nowatag}}||[[chalcocite]]||'''Pending'''
|-
|{{libtag}}||[[copper (II) oxide]]||'''Pending'''
|-
|{{libtag}}||[[copper (II) chloride]]||'''Pending'''
|-
|-
|{{libtag}}||[[sulfur dioxide]]||'''Pending'''
|{{libtag}}||[[Sulfur dioxide]]||'''Pending'''
|-
|-
|{{libtag}}||[[sulfuric acid]]||'''Pending'''
|{{libtag}}||[[Sulfuric acid]]||'''Pending'''
 
|}
|}
====Justification====
====Justification====
It can be argued that [[sulfuric acid]] is ''the'' primary [[:Category:Industrial Chemicals|industrial chemical]]. For the 19th and most of the 20th centuries, measuring a nation's sulfuric acid production was a good indicator of their degree of industrialization.
It can be argued that [[sulfuric acid]] is the '''primary''' [[:Category:Industrial Chemicals|industrial chemical]]. For the 19th and most of the 20th centuries, measuring a nation's sulfuric acid production was a good indicator of their degree of industrialization.


====Path====
====Paths====
* Currently most sulfuric acid is produced by the [[contact process]]. Unfortunately this requires catalysts made of uncommonly rare materials, usually [[platinum]]  or [[vanadium pentoxide]]. It is also done at high temperatures. This is not impossible on the benchtop, but for now we will seek an easier way.
* Currently most sulfuric acid is produced by the [[contact process]]. Unfortunately this requires catalysts made of uncommonly rare materials, usually [[platinum]]  or [[vanadium pentoxide]]. It is also done at high temperatures. While this is not impossible on the benchtop, we will seek a more accessible way.
* It can also be produced in various processes of [[electrolysis]], by lysing sulfates in a membrane cell, or by the [[electrobromine process]]. Electrolysis requires wire, and [[oxygen free copper]] for those wires requires [[sulfuric acid]] to produce, so a more direct way is wanted.
* We will produce sulfuric acid by the [[copper (II) chloride|copper chloride]] process. Since copper chloride is not naturally occurring (except in very rare circumstances) we will first need to produce that.
* We will produce sulfuric acid by the [[copper (II) chloride|copper chloride]] process. Since copper chloride is not naturally occurring (except in very rare circumstances) we will first need to produce that.
{{br}}
{{br}}
==Next Goal==
* [[Acetic acid]]


==FAQ==
==FAQ==
Line 136: Line 53:
#:NOWA stands for '''Naturally Occurring Widely Available'''. The CL stands for '''Chemical Library'''. This project is about documenting the technological steps involved in developing a library of chemical compounds that can be made with simple equipment from materials that are naturally occurring and widely available. There's no need to order chemicals from supply houses, or obtain them from over-the-counter products. Once a chemical has been produced in quantity from naturally occurring widely available sources, we add it to our "library". Then we can use that material to produce new materials. The important part is to demonstrate that they can be produced from these sources with minimal equipment: what the chemical industry refers to as "small-scale" or "laboratory" synthesis.<br/>The documentary part of this project will include two main products: the text on this wiki and the videos on YouTube.<br/>
#:NOWA stands for '''Naturally Occurring Widely Available'''. The CL stands for '''Chemical Library'''. This project is about documenting the technological steps involved in developing a library of chemical compounds that can be made with simple equipment from materials that are naturally occurring and widely available. There's no need to order chemicals from supply houses, or obtain them from over-the-counter products. Once a chemical has been produced in quantity from naturally occurring widely available sources, we add it to our "library". Then we can use that material to produce new materials. The important part is to demonstrate that they can be produced from these sources with minimal equipment: what the chemical industry refers to as "small-scale" or "laboratory" synthesis.<br/>The documentary part of this project will include two main products: the text on this wiki and the videos on YouTube.<br/>
# '''So it's a recipe book where people can learn how to make chemicals?'''
# '''So it's a recipe book where people can learn how to make chemicals?'''
#: '''Definitely not.''' See [[Main_Page#WARNING|the warning on our front page]]. Chemistry ''equipment'' can be dangerous by itself. Many materials (including the ones we work with here) are dangerous: toxic, flammable, corrosive, etc. These operations <u>should not be repeated or reproduced</u> except by people who are sufficiently qualified to do the work and handle the materials safely.<br/>
#: '''Definitely not.''' See [[Main_Page#WARNING|the warning on our front page]]. Chemistry ''equipment'' can be dangerous by itself. Many materials (including the ones we work with here) are dangerous: toxic, flammable, corrosive, etc. These operations <u>should not be repeated or reproduced</u> except by people who are sufficiently qualified and equipped to do that work and handle the materials safely.<br/>
# '''Isn't there a kind of chicken-and-egg problem? What is your equipment made of?'''
# '''Isn't there a kind of chicken-and-egg problem? What is your equipment made of?'''
#: That's a good point. We assume that the equipment itself (glassware, supports, heat sources, etc) are available at the beginning. The equipment itself may not be naturally occurring, but it's widely available, accessible, and relatively cheap. The purpose of this project is to demonstrate that the ''process'' is the important part, not the chemicals you start with. It's the knowledge, not the resources, that enable the science.<br/>
#: That's a good point. We assume that the equipment itself (glassware, supports, heat sources, etc) are available at the beginning. The equipment itself may not be naturally occurring, but it's widely available, accessible, and relatively cheap. The purpose of this project is to demonstrate that the ''process'' is the important part, not the chemicals you start with. It's the knowledge, not the resources, that enable the science.<br/>
Line 144: Line 61:


=='''WARNING'''==
=='''WARNING'''==
<span style='font-size: 150%; font-weight:bold'>ANY</span> pursuit can be dangerous to the inexperienced, unprepared, or incautious. That is definitely the case with the reactions, extractions, and syntheses this project entails. Do not repeat them unless you are sufficiently informed, prepared, and equipped to handle these materials and safely do the work shown.
<span style='font-size: 150%; font-weight:bold'>ANY</span> pursuit can be dangerous to the inexperienced, unprepared, or incautious. That is definitely the case with the reactions, extractions, and syntheses this project entails. Do not perform them unless you are sufficiently informed, prepared, and equipped to handle these materials and safely do the work shown.


==Online==
==Online==
<div style="width:100%; text-align: center;">
<div style="width:100%; text-align: center;">
[[Image: yt.png|NOWA-CL at YouTube|link=https://www.youtube.com/channel/UCEQue5J94SQGFWpw0osw5qQ]]
[[Image: yt.png|NOWA-CL at YouTube|link=https://www.youtube.com/channel/UCEQue5J94SQGFWpw0osw5qQ]]
[[Image: fb.png|NOWA-CL at Facebook|link=https://www.facebook.com/Nowa-cl-193477368273685/]]
[[Image: patreon.png|NOWA-CL at Patreon|link=https://patreon.com/nowacl]]
[[Image: patreon.png|NOWA-CL at Patreon|link=https://patreon.com/nowacl]]
</div>
</div>
<hr/><div style=' widrh: 100%; text-align: center; font-weigh: bold;'>[[Main Page|Home]] [[Video index]]</div>
<hr/><div style=' widrh: 100%; text-align: center; font-weigh: bold;'>[[Main Page|Home]] [[Video index]]</div>

Latest revision as of 20:12, 15 November 2023

Products

Goals

Water

Water via distillation
NOWA? Substance Status
NOWA Salt water Pending
LIBR Sea salt Pending
LIBR Distilled Water Pending

Justification

Pure (ish) water is an essential for life, not just chemistry. Preparing it at scale is important.

Path

Distilling impure water gives a distillate with no dissolved solids or biological pathogens. There are compounds which form azeotropes with water, so the distillate may not be completely pure, but it will be adequate for our purposes.


Sulfuric Acid

Sulfuric acid via copper chloride
NOWA? Substance Status
LIBR Copper (II) chloride Prev
LIBR Sulfur dioxide Pending
LIBR Sulfuric acid Pending

Justification

It can be argued that sulfuric acid is the primary industrial chemical. For the 19th and most of the 20th centuries, measuring a nation's sulfuric acid production was a good indicator of their degree of industrialization.

Paths

  • Currently most sulfuric acid is produced by the contact process. Unfortunately this requires catalysts made of uncommonly rare materials, usually platinum or vanadium pentoxide. It is also done at high temperatures. While this is not impossible on the benchtop, we will seek a more accessible way.
  • It can also be produced in various processes of electrolysis, by lysing sulfates in a membrane cell, or by the electrobromine process. Electrolysis requires wire, and oxygen free copper for those wires requires sulfuric acid to produce, so a more direct way is wanted.
  • We will produce sulfuric acid by the copper chloride process. Since copper chloride is not naturally occurring (except in very rare circumstances) we will first need to produce that.

FAQ

  1. What is NOWA-CL?
    There's a video on that question.
    NOWA stands for Naturally Occurring Widely Available. The CL stands for Chemical Library. This project is about documenting the technological steps involved in developing a library of chemical compounds that can be made with simple equipment from materials that are naturally occurring and widely available. There's no need to order chemicals from supply houses, or obtain them from over-the-counter products. Once a chemical has been produced in quantity from naturally occurring widely available sources, we add it to our "library". Then we can use that material to produce new materials. The important part is to demonstrate that they can be produced from these sources with minimal equipment: what the chemical industry refers to as "small-scale" or "laboratory" synthesis.
    The documentary part of this project will include two main products: the text on this wiki and the videos on YouTube.
  2. So it's a recipe book where people can learn how to make chemicals?
    Definitely not. See the warning on our front page. Chemistry equipment can be dangerous by itself. Many materials (including the ones we work with here) are dangerous: toxic, flammable, corrosive, etc. These operations should not be repeated or reproduced except by people who are sufficiently qualified and equipped to do that work and handle the materials safely.
  3. Isn't there a kind of chicken-and-egg problem? What is your equipment made of?
    That's a good point. We assume that the equipment itself (glassware, supports, heat sources, etc) are available at the beginning. The equipment itself may not be naturally occurring, but it's widely available, accessible, and relatively cheap. The purpose of this project is to demonstrate that the process is the important part, not the chemicals you start with. It's the knowledge, not the resources, that enable the science.
  4. There are already too many wikis out there. Why start a new one? (aka Why not just put this information in Wikipedia?)
    1. Aggregating and disseminating this information was the purpose of this project, and wikis are an excellent way to do both of those things, so that part is straightforward.
    2. Wikipedia is specifically not a textbook, guidebook, or instruction manual. That means it isn't appropriate to build out those entries with much of the data in this wiki. To whatever degree it makes sense for both projects, sharing of data is welcomed and encouraged. NB: A lot of the numeric data in this wiki comes directly from either Wikipedia or its underlying sources.

WARNING

ANY pursuit can be dangerous to the inexperienced, unprepared, or incautious. That is definitely the case with the reactions, extractions, and syntheses this project entails. Do not perform them unless you are sufficiently informed, prepared, and equipped to handle these materials and safely do the work shown.

Online

NOWA-CL at YouTube NOWA-CL at Patreon


Home Video index