100개 키워드로 읽는 라틴어 이야기 또는 미세먼지 저감과 미래 에너지시스템 > 도서

100개 키워드로 읽는 라틴어 이야기



도서명 : 100개 키워드로 읽는 라틴어 이야기
저자/출판사 : 조경호, 오르비타
쪽수 : 418쪽
출판일 : 2018-08-06
ISBN : 9791195444809
정가 : 18000

1. 라틴어에는 하나의 명사 이름이 없다?
2. 라틴어 어순은 한국어 어순과 가장 비슷하다?
3. 영어의 예외적 복수형태가 원래는 라틴어 규칙이다?
4. 유럽어에서, 인칭의 단수/복수마다 형태가 바뀌는데, 라틴어 때문인가요?
5. 라틴어로 ‘안녕’을 어떻게 말할까요?
6. 1부터 10까지는 어떻게 셀까?
7. ‘최우수상’이라는 뜻의 라틴어 ‘Summa cum laude’의 진짜 의미는?
8. 라틴어의 Esse동사(영어의 Be동사)는 어떻게 생겼죠?
9. 미국 프린스턴 대학교 벽면에 있는 글의 의미는? ①
10. 미국 프린스턴 대학교 벽면에 있는 글의 의미는? ②
11. 연세대와 존스홉킨스대학의 라틴어 Motto가 똑같을까?
12. 라틴어의 명사(단어) 이야기
13. 클래식 음악 『O Magnum Mysterium』의 의미는?
14. Ave, Maria는 ‘아베 마리아’일까, ‘아웨 마리아’일까요?
15. 라틴어 발음, 책마다 다른 데요?
16. 조동사 다음에 동사원형 어순이 아닌가요?
17. 라틴어에는 ‘Yes’라는 말이 없다?
18. 라틴어 모음이 현대 언어에서는 어떻게 바뀌었을까?
19. 모차르트의 레퀴엠(Requiem)은 무슨 의미일까?
20. 영국 물리학자 해밀턴이 숫자 체계를 설명하면서, 처음 사용한 ‘사다리’를 뜻하는 라틴어 유래는?
21. 영어 Tea가 중국 茶(Cha)에 영향을 준 것이 라틴어라고?
22. 한국대학 중에 라틴어 Motto를 가진 곳은?
23. 영국 프리미어 축구팀 Logo에서 볼 수 있는 라틴어
24. 비슷한 형태인 영어 Regular와 스페인어 Regalo, 라틴어가 영향을 줬을까?
25. 라틴어인 영어 단어들
26. ‘Moratorium’과 ‘Ubiquitous’도 라틴어?
27. Homo(호모) 의미가 원래 뭐지?
28. ‘대학교’로 번역되는 ‘Alma Mater’의 원래 의미는?
29. ‘초자연적인 힘’으로 번역되는 ‘Deux ex Machina’의 라틴어 의미는?
30. ‘왔노라, 보았노라, 이겼노라’를 누가 말했지?
31. ‘건강한 신체에 건전한 정신이 깃든다’ 라는 말은 어디에서 나왔을까?
32. 『Books Libro』라는 서점 이름에서 ‘Libro’는 스페인어일까, 라틴어일까?
33. ‘진실은 강하며, 이겨 낼 것이다’라는 어구는 언제 누가 말한 것일까?
34. 히포크라테스가 ‘인생을 짧고, 예술은 길다’라며 왜 예술을 언급했을까?
35. ‘딱따구리’의 신화적 기원이 되는 인물 Picus의 이야기를 알고 있나요?
36. 라틴어에서 소유격은 뭐고, 소유형용사는 뭐지?
37. ‘행운은 용감한 자들의 편’이라 하고 장렬히 전사한 사람이 누굴까?
38. 짧지만 생활 속에서 사용할 수 있는 라틴어 간단표현 30선
39. 새해 인사, 좋은 라틴어 어구는?
40. 서울대의 라틴어 Motto가 옥스퍼드대학교랑 비슷하다고?
41. 전치사에 따라 뒤에 오는 명사 종류가 다르다고?
42. 라틴어 발음할 때, 강세 규칙이 있나요?
43. 라틴어에는 ‘관사’가 왜 존재하지 않을까?
44. 프린스턴 대학의 교표는 무슨 의미일까?
45. 라틴어에는 ‘현재 진행형’이라는 문법이 아예 없나요?
46. 공부를 중요히 여기는 메시지를 Motto로 가진 학교는?
47. 성경어구를 학교 Motto로 가지고 있는 미국의 아이비리그 소속 유명대학은?
48. 후안(Juan), 주앙(Joan), 이반(Ivan)이 같은 사람이라고?
49. 공부(Study)를 만든 사람 만나기만 해봐, 가만 안두겠어!
50. 성경 ‘10계명’의 라틴어 버전은 어떨까요? [첫 번째 계명 ~ 다섯 번째 계명]
51. 성경 ‘10계명’의 라틴어 버전은 어떨까요? [여섯 번째 계명 ~ 열 번째 계명]
52. 라틴어와 영어의 수동태 형태가 비슷한데, 의미는 이상한데?
53. 고대에서 가장 유명한 탈출 이야기가 성경의 ‘출애굽기’라는 데?
54. 숫자 8, 9는 10단위부터는 사용하지 않는다
55. 로마숫자 표기법(X, M, IV...?), 도대체 어떻게 사용하는 거지?
56. 어머니의 선물 그리고 말씀
57. 동사이야기: Esse 동사의 적용범위는 전방위적이다?
58. 라틴어 단어를 사전에서 어떻게 찾지?
59. 영화 『죽은 시인의 사회』에서 나온 ‘Carpe Diem’ 기억하시나요?
60. 라틴어는 의문문을 어떻게 만들지? 물음표만 붙이면 될까?
61. 라틴어 기초 회화 수준의 대화문, 한번 구경해볼까요?
62. ‘생일 축하해!’를 라틴어로 어떻게 표현할까?
63. 크리스마스와 관련된 성경이야기는 무엇일까?
64. 부산항을 들썩이게 했던 붉은 개미, 라틴어 학명은?
65. 영화 『검은 사제들』에 나오는 강동원이 부른 노래 OST 「Victimae Paschali Laudes」의 의미는?
66. 토마스 아퀴나스가 말한 ‘진리(Veritas)’는 무엇일까?
67. 어린 왕자를 라틴어 버전으로 살펴볼까요? [1부]
68. 어린 왕자를 라틴어 버전으로 살펴볼까요? [2부]
69. 처방전이나 기록지에 나온 ‘PRN’도 라틴어인가요?
70. ‘헤라클래스’ 어릴 적 모습을 묘사한 라틴어 짧은 글 ①
71. ‘헤라클래스’ 어릴 적 모습을 묘사한 라틴어 짧은 글 ②
72. NYU가 뉴욕에만 있는 거 아니었나요? 학교Motto도 라틴어인가요?
73. 라틴어 슬로건을 가지고 있는 군대가 있다고 하던데?
74. 율리우스 시저가 말한 ‘주사위는 던져졌다’는 말을 라틴어로 어떻게 할까요?
75. 돈 키호테 책 표지의 방패 문양에 라틴어가 있다고?
76. 돈키호테 1권의 서문에 나오는 라틴어 세 마디는 무엇일까?
77. 해리포터 작품에 나오는 마법학교 Motto와 라틴어 주문 Best 10
78. 라틴어의 날짜를 말하는 법은 현대 언어와 너무 다르다?
79. ‘오! 마리아여!’에서 감탄사 ‘오~’는 어떻게 라틴어로 쓰죠?
80. 문학 작품 속 라틴어 이야기(Aeneid 7권 312줄)
81. 칠레의 노벨상 수상자인 Pablo Neruda의 유명한 어구를 라틴어로 하면?
82. 라틴어에서도 ~self 방식 재귀대명사가 있나요?
83. ‘스승의 날, 졸업식?입학식’ 즈음이면 떠오르는 라틴어 어구는?
84. ‘지혜로운 왕’에 대한 라틴어 한마디가 있다면?
85. 성경의 사도신경의 라틴어는 어떻게 되어 있을까? ①
86. 성경의 사도신경의 라틴어는 어떻게 되어 있을까? ②
87. 생활 영어에서 많이 나오는 라틴어 ①
88. 생활 영어에서 많이 나오는 라틴어 ②
89. 생활 영어에서 많이 나오는 라틴어 ③
90. 어버이날에 알맞은 라틴어 어구는 뭐가 있을까요?
91. ‘네 시작은 미약하였으나 네 나중은 심히 창대 하리라’ 구절이 하나님 말씀이 아니라고?
92. ‘외유내강’을 라틴어로 한다면?
93. 변화하지 않는 단독 부사 하나로 라틴어 표현하기
94. 중국 대학 중에 라틴어 Motto를 사용하는 학교가 있다고?
95. 성경의 교독문 76번은 요한복음 1장?
96. 스페인 마드리드 국립대학교와 바르셀로나 대학교의 모토가 같다고?
97. 고린도전서에 나오는 ‘사랑’에 관한 좋은 글귀
98. ‘십자가의 수난’에 관련된 노래의 의미는?
99. ‘Dum spiro, spero’가 맞아 ‘Dum spiro, spera’가 맞아?
100. 마무리는 기본 변화표로 해보면 어떨까요?




미세먼지 저감과 미래 에너지시스템



도서명 : 미세먼지 저감과 미래 에너지시스템
저자/출판사 : 신정수, 일진사
쪽수 : 534쪽
출판일 : 2018-07-25
ISBN : 9788942915583
정가 : 24000

PART 01. 미세먼지 저감과 에너지 기술의 혁명
제1장 지구온난화와 공기의 질
1-1 기후변화 위기의 극복 과제 ········································································16
1-2 대기의 질(質) 문제 ·····················································································18
1-3 실내공기의 질(IAQ ; Indoor Air Quality) ············································21
1-4 미세먼지(PM10)와 초미세먼지(PM2.5) ·····················································23
1-5 비산먼지 저감대책 추진에 관한 업무처리규정 ···········································25
1-6 냉매의 관리ㆍ회수ㆍ처리 방법 ·····································································27
1-7 자동차와 미세먼지 ······················································································30
1-8 배출가스 저감장치의 부착 등의 저공해 조치 ············································33
1-9 환경기준의 설정 ··························································································36
1-10 휘발성 유기화합물질(VOCs) ····································································38
1-11 오존(O3)의 영향 ························································································41
1-12 공동주택 및 다중이용시설의 환기설비 ·····················································42
1-13 건축물의 자연환기설비 시스템 ·································································43
1-14 신축공동주택 등의 기계환기설비의 설치기준 ··········································44
1-15 신축공동주택 등의 자연환기설비의 설치기준 ········································46
1-16 기계환기설비의 다중이용시설 및 필요 환기량 ········································48
1-17 학교의 환기ㆍ채광ㆍ조도ㆍ온습도 기준 ······················································50
1-18 다중이용시설에서 실내공간 오염물질 ·······················································52
1-19 신축공동주택의 실내공기질 측정 ·····························································54
1-20 환기(換氣) 방식 ·························································································54
1-21 실내의 필요 환기량 ··················································································56
1-22 외기 엔탈피 제어 방법 ·············································································57
1-23 실내공기의 농도변화 예측 방법 ·······························································59
1-24 공기필터(Air Filter) ················································································60
1-25 환기의 효율 ·······························································································63
1-26 공기의 코안다 효과(Coanda Effect) ····················································66
1-27 주방의 환기 ·······························································································67
1-28 온수온돌과 구들온돌 ·················································································69
◎ 용어의 정리 ······································································································73

제2장 에너지혁명 기술
2-1 제4차산업 에너지혁명 ·················································································75
2-2 에너지혁명의 선도 기술 ··············································································77
2-3 독일 G20 협의회 ························································································79
2-4 제4차 산업혁명의 3중 나선구조 ································································81
2-5 스마트시티(Smart City) 개발 ···································································83
2-6 열에너지 계간축열 기술 ··············································································85
2-7 연료전지와 수소경제 도래 ··········································································86
2-8 IOT(사물인터넷 ; Internet Of Things) ·················································89
2-9 빅데이터(Big Data) ···················································································90
2-10 인공지능형 토털 부동산관리자(FM, PM, AM) ······································92
2-11 핀테크(FinTech) ·······················································································94
2-12 가상화폐(암호화폐)와 블록체인(Blockchain) 기술 ·································95
2-13 로봇기술(Robot Technology) ·································································97
2-14 바이오 인공장기 ······················································································100
2-15 AR, VR, MR & XR(증강ㆍ가상ㆍ융합ㆍ확장현실) ································101
2-16 핵융합발전 개발의 가속화 ······································································102
2-17 미세먼지의 산업화 ··················································································104
2-18 고온 초전도체 ·························································································106
2-19 자기공명 무선전력송신 기술(장거리 무선전력 전송기술) ······················108
2-20 스마트그리드(Smart Grid)의 발달 ·······················································110
2-21 에너지 저장 시스템(ESS) ······································································111
2-22 건축물 에너지관리시스템(BEMS) ··························································112
2-23 빌딩 커미셔닝(Building Commissioning) ···········································114
2-24 웨어러블 에너지 하베스팅(Wearable Energy Harvesting) ···············115
2-25 열전반도체(열전기 발전기 ; Thermoelectric Generator) ·················116
2-26 전자식 냉동(Electronic Refrigeration) ··············································120
2-27 자기 냉동기(Magnetic Refrigerator) ··················································121
2-28 고효율 3중효용 흡수식 냉동기 ······························································122
2-29 흡수식 열펌프 ·························································································125
2-30 객스(GAX) 사이클(Generator Absober eXchange) ··························128
2-31 이산화탄소 냉ㆍ온수 시스템 ···································································130
2-32 유기 랭킨 사이클(ORC ; Organic Rankine Cycle) ··························131
2-33 상변화 볼(PCM Balls) 온수시스템 ·······················································133
2-34 지열을 이용한 전열교환기 ······································································134
2-35 고효율 압축기술 ······················································································135
2-36 고효율 변압기 기술 ················································································136
2-37 생체모방기술(Biomimicry, Biomimetics) ···········································137
● 용어의 정리 ····································································································154

제3장 온실가스와 친환경 녹색건축
3-1 에너지의 생성과 이동 ···············································································160
3-2 기후변화협약(UNFCCC)과 당사국총회(COP) ··········································163
3-3 지구온난화 대책 ························································································166
3-4 오존층 파괴 현상과 자외선 ······································································168
3-5 온실가스 배출권거래제 ·············································································170
3-6 석유환산톤(TOE)과 이산화탄소톤(TCO2) ················································172
3-7 환경부하 평가(LCA ; Life Cycle Assessment) ·································175
3-8 HACCP(식품위해요소 중점관리점) ··························································177
3-9 공조설비의 HACCP ··················································································180
3-10 GMP(우수의약품 제조관리) ···································································182
3-11 친환경 건축물 계획 ················································································183
3-12 건축물 대지의 조성 ················································································184
3-13 공동주택과 녹지공간 ···············································································186
3-14 자연형 태양열주택 시스템 ······································································187
3-15 태양광 자연채광시스템 ···········································································191
3-16 연돌효과와 역연돌효과 ···········································································195
3-17 이중외피(Double Skin) 방식 ································································197
3-18 중수도 설비 ·····························································································201
3-19 빗물 이용 시스템 ····················································································204
3-20 쓰레기 관로수송 시스템 ·········································································205
3-21 녹색건축 인증에 관한 규칙 ····································································207
3-22 그린리모델링(녹색건축화 ; Green Remodeling) ································209
3-23 제로에너지하우스와 제로카본하우스 ······················································221
3-24 생태건축(친환경적 건축) ········································································223
3-25 생태연못 ··································································································225
3-26 글로벌 친환경건축물 평가제도 ·······························································226
● 용어의 정리 ····································································································232

PART 02. 미래 청정에너지 기술
제4장 신재생에너지 응용기술
4-1 태양에너지의 이용 ····················································································240
4-2 신재생에너지와 신재생에너지 설비 ··························································243
4-3 신에너지 및 재생에너지 개발ㆍ이용ㆍ보급 촉진법 ····································244
4-4 태양열에너지 ·····························································································245
4-5 태양광에너지(Photovoltaics) ··································································252
4-6 일조와 음영 분석 ······················································································262
4-7 복사와 일사 ·······························································································268
4-8 태양광 발전설비 ························································································270
4-9 지열에너지 ·································································································280
4-10 지열의 다양한 이용 방법 ·······································································287
4-11 풍력발전 ··································································································289
4-12 수력에너지 ······························································································293
4-13 바이오에너지 ···························································································298
4-14 폐기물에너지 ···························································································299
4-15 해양에너지 ······························································································301
4-16 수소에너지 ······························································································304
4-17 연료전지(Fuel Cell) ···············································································306
4-18 석탄액화ㆍ가스화 및 중질잔사유(重質殘渣油) 가스화 에너지 ················311
4-19 태양열원 히트펌프(SSHP ; Solar Source Heat Pump) 기술 ··········313
4-20 지열원 히트펌프(GSHP ; Ground Source Heat Pump) 기술 ·········315
● 용어의 정리 ····································································································318

제5장 에너지 절약기술
5-1 에너지 절약 및 폐열 회수 ········································································320
5-2 온도차 에너지와 지하수의 활용 ·······························································322
5-3 초에너지 절약형 건물 ···············································································323
5-4 낭비운전 및 과잉운전 제어 ······································································328
5-5 증기 재이용 공정시스템 ···········································································331
5-6 초순수(Ultra Pure Water) 전환 기술 ···················································333
5-7 물절약 기술 ·······························································································334
5-8 수영장 관리기술 ························································································335
5-9 수소이온농도지수(pH) ··············································································337
5-10 배관의 부식 문제 ····················································································338
5-11 배관의 스케일(Scale) 문제 ····································································343
5-12 폐열 회수형 냉ㆍ난방 동시운전 멀티(HR ; Heat Recovery) 기술 ····345
5-13 열원별 히트펌프 시스템 비교 ································································348
● 용어의 정리 ····································································································349

제6장 냉ㆍ난방 에너지시스템 기술
6-1 다양한 건물 공조방식 ···············································································353
6-2 복사냉방ㆍ난방 방식 ··················································································357
6-3 바닥취출 공조시스템(UFAC, Free Access Floor System) ·················362
6-4 저속 치환공조 ···························································································365
6-5 거주역/비거주역(Task/Ambient) 공조 시스템 ·······································366
6-6 윗목/아랫목 시스템 ··················································································367
6-7 방향공조(향기공조) ···················································································368
6-8 1/f 흔들림 공조 ·······················································································368
6-9 퍼지(Fuzzy)제어 ·······················································································369
6-10 초고층 건축물의 공조와 에너지 ·····························································370
6-11 대공간 건물의 공조와 에너지 ································································373
6-12 호텔(Hotel) 건물의 공조와 에너지 ························································375
6-13 병원건물의 공조와 에너지 ······································································376
6-14 백화점건물의 공조와 에너지 ··································································377
6-15 IB(Intelligent Building ; 인텔리전트 빌딩)의 공조와 에너지 ··········379
6-16 클린룸(Clean Room)의 공조와 에너지 ·················································381
6-17 공동주택의 에너지ㆍ환경 신기술 ····························································388
6-18 덕트의 취출구 및 흡입구 ·······································································389
6-19 덕트 최적 기류특성 ················································································392
6-20 VAV 공조시스템 ·····················································································394
6-21 실링리턴(Ceiling Plenum Return) 공조방식 ······································398
6-22 펌프의 Cavitation(공동현상) ································································399
6-23 펌프의 특성곡선과 비속도 ······································································402
6-24 배관저항과 균형(Balancing Method) ··················································404
6-25 소음(dB)의 개념과 표현 ·········································································405
6-26 음의 성질(흡음과 차음)과 방음 ····························································406
6-27 건물 공조용 소음기(Sound Absorber) ·················································409
6-28 공조시스템의 소음 및 진동의 전달 ························································411
6-29 소음의 합성법 ·························································································412
6-30 건축기계설비의 소음(NC, NRN) ·························································413
6-31 고층아파트 배수설비에 의해 발생되는 소음(NC, NRN) ······················414
6-32 급배수설비의 소음(NC, NRN) 측정 ·····················································415
6-33 배관의 진동에 대한 원인과 방진 대책 ··················································417
6-34 전산유체역학(CFD) 응용 ········································································419
● 용어의 정리 ····································································································421

제7장 건축설비와 수요관리
7-1 친환경 대체냉매 개발 ···············································································429
7-2 상변화물질(PCM)의 이용 ·········································································432
7-3 열교환기의 파울링계수 ·············································································433
7-4 전열교환기(HRV, ERV) ···········································································433
7-5 에어커튼(Air Curtain) ············································································437
7-6 이중 응축기(Double Bundle Condenser) 기술 ····································440
7-7 고효율 히트펌프 시스템 ···········································································441
7-8 공기-공기 히트펌프(Air to Air Heat pump) ······································444
7-9 공기-물 히트펌프(Air to Water Heat Pump) ·····································445
7-10 수열원 천장형 히트펌프 방식 ································································447
7-11 가스구동 히트펌프(GHP) ·······································································449
7-12 VVVF(인버터) 기술 ················································································452
7-13 축열 시스템에 의한 수요관리 ································································454
7-14 수축열 시스템 기술 ················································································459
7-15 빙축열 시스템 기술 ················································································464
7-16 축랭 지원금제도 ······················································································467
7-17 저냉수ㆍ저온공조 방식(저온 급기 방식) ·················································468
7-18 외기 냉수냉방(Free Cooling, Free Water Cooling) ························470
7-19 콘덴싱 보일러(Condensing Boiler) ·····················································472
7-20 보일러의 에너지 절약 방안 ····································································474
7-21 급탕설비의 에너지 절감 대책 ································································475
7-22 감압밸브(Pressure Reducing Valve) 사용 방법 ································476
7-23 증기보일러의 과열의 목적 및 이점 ························································478
7-24 증기 어큐뮬레이터(축열기 ; Steam Accumulator) 사용 방법 ··········478
7-25 수격현상(Water Hammering) ······························································479
7-26 변압기(Transformer)의 효율 ································································481
7-27 전력부하 지표 ·························································································483
7-28 태양광 등의 분산형 전원 연계기술 ························································483
7-29 대기전력저감대상제품(「에너지이용 합리화법 시행규칙」) ······················486
7-30 고효율에너지인증대상기자재 및 적용범위(「고효율에너지기자재
보급촉진에 관한 규정」) ··········································································487
7-31 자동제어(自動制御) 기술 ········································································488
7-32 백넷(BACnet)제어(Building Automation and Control network) ·493
7-33 ICT(정보통신기술) 발달에 따른 응용기술 ·············································495
7-34 공실 제어 방법 ·······················································································497
7-35 LCC 경제성평가(Life Cycle Cost) ·······················································498
7-36 설비의 내구연한(내용연수) ·····································································499
7-37 VE기술(Value Engineering) ·······························································500
● 용어의 정리 ····································································································504

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