Presentation Transcript
Chapter 4 : Chapter 4 Chemical Reaction
& Recycling
재활용과 화학수학
Topics : Topics Balanced Chemical Equations
Stoichiometry
Formula Mass
Avogadro’s Number, 6.02x1023
Molar Mass
닫힌 계 - 지구 : 닫힌 계 - 지구
System & surroundings : System & surroundings 계와 환경
matter flow & energy flow
open system 열린 계
matter & energy flow YES ; 비이커
closed system 닫힌 계
matter NO & energy YES
isolated system 고립 계
matter & energy NO ; 보온병
Slide5 : 인간은 죽으나 탄소는 그렇지 않다. 인간의 죽음과 함께 탄소의 운명이 끝나는 것이 아니다. 탄소는 흙으로 돌아가서, 식물이 언젠가는 다시 그 탄소를 섭취하고, 다시 식물과 동물의 삶의 순환과정으로 유입된다.
Jacob Bronowski
Chemical Reactions : Chemical Reactions Respiration 호흡
탄수화물의 일종인 글루코오스의 산화
광합성의 역반응
C6H12O6 + O2 CO2 + H2O + Energy 글루코오스 이산화탄소 + 물
a C6H12O6 + b O2 c CO2 + d H2O 반응물 생성물
Chemical Reactions : Chemical Reactions Respiration
C6H12O6 + O2 CO2 + H2O + Energy
a C6H12O6 + b O2 c CO2 + d H2O 1 C6H12O6 + 6 O2 6 CO2 + 6 H2O
Slide9 : 모든 문명국들은 식량이 없어 극심한 위기에 놓여 있습니다. … 이 고통 받는 사회를 구해야 할 이들은 바로 화학자들입니다. 연구를 통해 언젠가는 지금의 기근을 풍족함으로 전환할 수 있을 것입니다. … 여기 희미한 불빛이 보입니다. 대기중의 질소를 비료로 바꾸는 방법은 화학자들의 위대한 발명 중 하나가 될 것입니다.
Sir William Crookes (1898)
Slide10 : 인구는 최근 200년 동안 5배 이상 증가하였고, 평균 수명도 2배 이상 늘어났다. - 농약과 비료, 항생제 같은 화학물질을 만들어 낼 수 있었기 때문이다.
오늘날 중부 유럽에서는 1 ha의 땅에서 약 4톤의 농작물을 생산한다고 한다. 화학비료가 없었던 때에는 풍년인 해에도 같은 면적에서 2 톤 이상을 생산하지 못했다.
Chemical Reactions : Chemical Reactions Haber-Bosch Process for Ammonia (1905)
H2 + N2 NH3
3 H2 + N2 2 NH3
Changes in reaction conditions affect outcome of a reaction
Commercial reaction are optimized for products and cost
Chemical Reactions : Chemical Reactions Ozone to Oxygen
2 O3 3 O2
중간 화학종 intermediate species
알루미늄의 재활용 : 알루미늄의 재활용 알루미늄
3A
자연계에서 보크사이트
Hall-Heroult process
Chemical Reactions : Chemical Reactions Balancing Reactions
balance metals and semi-metals first
balance heavy non-metals and halogens
balance C, N, O, H last Al2O3 + C Al + CO2 2 Al2O3 + 3 C 4 Al + 3 CO2
Stoichiometry : Stoichiometry 화학양론
화학과정에서 사용되거나 생성된 물질의 상대적 양을 결정하는 학문
2 Al2O3 + 3 C 4 Al + 3 CO2
Answers Questions
알루미늄 깡통 한 개를 만들기 위해서 얼마만큼의 Al2O3 과 에너지가 필요한가?
천연 가스 1몰이 타면 얼마만큼의 에너지가 발생하는가?
조깅으로 얼마만큼의 에너지가 소모되나?
Dimensional Analysis : Dimensional Analysis How many eggs in a dozen? 1 dozen = 12 168 eggs For Spring Break going to Palm Beach, FL (1530km)
How long will take if you travel 65miles/hr? (1mi=1.609km) 14.6 hrs
Dimensional Analysis : Dimensional Analysis Atomic Mass Unit (amu)
1/12th the mass of a carbon-12 atom
Dalton (D)
new name for amu
Dimensional Analysis : Dimensional Analysis Isotopes 동위원소
atoms with same number of protons, but with different number of neutrons Isotopic Mass
mass of an isotope relative to the carbon-12 isotope, the standard
Atomic Mass : Atomic Mass 원자 질량
average mass of the isotopes of an element according to their natural abundance
화학식량 : 화학식량 Formula Unit (Chemical Formula)
covalent compounds, C6H12O6
ionic compounds, NaCl, MgO
Formula Mass
sum the atomic mass for each atom in the chemical formula Molecular Mass
원자질량단위와 몰 : 원자질량단위와 몰 6.02x1023 = 1 mole AMU to Mass
1 amu is 1/12th of carbon - 12 atom
6.02x1023 amu = 1 gram Mole
unit of measurement
Avogadro’s number = 6.02x1023
Final Dimension : Final Dimension Molar Mass
mole of any substance has a molar mass (grams) equal to the formula mass 1 mole C6H12O6 = 180.16 grams FW of C6H12O6 = 180.16 amu
Significant Figures : Significant Figures Nonzero digits are significant
Zeros between nonzero digits are significant
Zeros to right of the decimal point are significant
Zeros to left of the decimal point can be ambiguous
Zeros that precede the first nonzero digit are not significant
Recycling : Recycling Garbage, What is it?
Anything that is no longer wanted or useful
Why do we recycle?
What can we recycle?
How can we recycle?
Waste : Waste Dispose of 210 million tons of waste
Cost of 45 billion dollars per year
12 billion tons per year
commercial, industrial and municipal
Garbage : Garbage Household Garbage
42% paper and textiles
23% metal, plastic and glass
18% yard waste
7% food waste
Landfills
leaching pollutes local water tables
generate methane gas from degraded materials
Fresh Kills Landfill : Fresh Kills Landfill
Paper Recycling : Paper Recycling Paper most common recycled material
between 45-50% of paper is recycled
Two types of recycled paper
post-commercial paper
post-consumer paper
Saves 17 trees per ton of paper
42.3 million tons of paper recycled - 1996
Newspaper Recycling : Newspaper Recycling 1998 - 8.8 million tons of newspaper
20% of all paper recycled in the US
Uses of recycled newspaper
50% is exported
17% for paperboard
18% for miscellaneous paper and non paper products
Paper can be recycled three to seven times
Composting : Composting Yard Waste
grass clipping, leaves, weeds and kitchen waste
Composting speeds up decay
bacteria, fungi, and microorganisms decompose the organic material releasing nutrients
Compost is rich in nutrients for growing
Food Recycling : Food Recycling Food Waste
makes up most of the smell of garbage
food source for bacteria and parasites
Clean Food
can be recycled into biogas (methane gas)
burned to heat homes or to produce electricity
Example: Los Angeles Airport
16,000 tons of food residual per year
Recycling Plastics : Recycling Plastics Plastics
synthetic polymers
long chains of repeating units
plastics are from petroleum products
polyethylene terphthalate (PET), HDPE
Recycled for non-food applications
그러나 제조막 사이에 사용되기도 한다
Recycling plastic is extremely important because they are non-biodegradable
Recycling Plastics : Recycling Plastics Three methods for recycling plastics
mechanical recycling
feedstock recycling
energy recovery
Waste Water : Waste Water What happens to the water that you used to shower, brush your teeth, flush the toilet?
Sewage - household waste water
water goes to water treatment plant
Two types of water
gray water - sinks, showers
black water - toilets
Water Recycling : Water Recycling Treatment plant deal with two issues
solid waste from the water
purifying the water for return to nature
7 million tons of dry sludge - 2000
50-60% use as land fertilizer
Water purification is expense
filtration, osmosis, dialysis
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