Toggle navigation
Publications
Profiles
Research Groups
Indexes
Help and information
Eesti keeles
Intranet
Publications
Profiles
Research Groups
Indexes
Help and information
Eesti keeles
Intranet
Databases
Publications
Searching
My bookmarks
0
low energy renovation (keyword)
All fields
Source search
Author search
Subject term search
Title search
starts with
containes
exact match
All fields
Source search
Author search
Subject term search
Title search
starts with
containes
exact match
—
All fields
Source search
Author search
Subject term search
Title search
starts with
containes
exact match
—
All fields
Source search
Author search
Subject term search
Title search
starts with
containes
exact match
—
All fields
Source search
Author search
Subject term search
Title search
starts with
containes
exact match
—
Add criteria
Advanced search
filter
Clear
×
types of item
book
..
journal article
..
newspaper article
..
book article
..
dissertation
..
Open Access
..
Scientific publication
..
year
year of publication
Loading..
author
Loading..
TTÜ department
Loading..
subject term
Loading..
series
Loading..
name of the person
Loading..
keyword
Loading..
Clear
Number of records
3
Look more..
(2/135)
Export
export all inquiry results
(3)
Save TXT fail
Save PDF fail
print
Open for editing with marked entries
my bookmarks
display
Bibliographic view
Short view
sort
author ascending
author descending
year of publication ascending
year of publication descending
title ascending
title descending
1
journal article
Cost effectiveness of energy performance improvements in Estonian brick apartment buildings
Kuusk, Kalle
;
Kalamees, Targo
;
Maivel, Mikk
Energy and buildings
2014
/
p. 313-322 : ill
journal article
2
book article
NV-SP: A new high performance and low energy NVM-Based scratch pad
Shalabi, Ameer
;
Paul, Kolin
;
Ghasempouri, Tara
;
Raik, Jaan
2020 IEEE Computer Society Annual Symposiumon VLSI : ISVLSI 2020, 6–8 July 2020, Limassol, Cyprus
2020
/
art. 19876866, p. 54−59
https://doi.org/10.1109/ISVLSI49217.2020.00020
book article
3
journal article
Potential for finance and energy savings of detached houses in Estonia
Alev, Üllar
;
Allikmaa, Ats
;
Kalamees, Targo
Energy procedia
2015
/
p. 907-912 : ill
http://dx.doi.org/10.1016/j.egypro.2015.11.017
journal article
Number of records 3, displaying
1 - 3
keyword
134
1.
low energy renovation
2.
CO2 emissions energy renovation
3.
deep energy renovation
4.
energy renovation
5.
energy-renovation
6.
nZEB deep energy renovation
7.
Bluetooth low-energy tracking technology
8.
low energy building
9.
low energy buildings
10.
low energy house
11.
low energy office building
12.
low-energy building
13.
low-energy buildings
14.
energy forecast wind energy
15.
EROI-Energy returned on energy invested
16.
ARA renovation subsidies
17.
circular renovation
18.
comprehensive renovation
19.
deep renovation
20.
digital technologies for renovation
21.
digitalization of renovation processes
22.
facade renovation
23.
indoor temperature after renovation
24.
industrialised renovation
25.
integrated renovation
26.
long term renovation strategy
27.
major renovation
28.
mass-renovation
29.
modular renovation panels
30.
need for renovation
31.
neighbourhood renovation
32.
nZEB deep renovation
33.
nZEB prefabricated modular renovation solutions
34.
nZEB renovation
35.
offsite serial renovation
36.
optimal renovation solutions
37.
prefabricated off-site serial renovation
38.
prefabricated renovation
39.
prefabricated serial renovation
40.
quality commission of nZEB renovation
41.
renovation
42.
renovation budget
43.
renovation cost
44.
renovation grant
45.
renovation need
46.
renovation of apartment buildings
47.
renovation of detached houses
48.
Renovation passport
49.
renovation scenarios
50.
Renovation strategy
51.
renovation subsidies
52.
renovation wave
53.
renovation work
54.
resource efficiency and circularity principles to renovation
55.
serial renovation
56.
ventilation renovation
57.
extremely low frequency
58.
high context and low context cultures
59.
humanism in the Low Countries
60.
hyper-branched linear low density PE
61.
Linear low-density polyethylene
62.
low birth weight
63.
low carbon
64.
low density areas
65.
low density polyethylene (LDPE)
66.
low dropout regulator
67.
low Earth Orbit
68.
low electric signals
69.
low inertia
70.
low interest rates
71.
low molecular weight peptides
72.
low moor peat
73.
low noise
74.
low power
75.
low precision
76.
low speed
77.
low system strength
78.
low temperature
79.
low temperature district heating
80.
low temperature heating
81.
low temperature performance
82.
low temperature pyrolysis
83.
low temperature synthesis
84.
low THD
85.
low voltage
86.
low voltage distribution grid
87.
low voltage grid
88.
low voltage networks
89.
low voltage ride-through (LVRT)
90.
low voltage S/TEM
91.
low voltage stress
92.
low voltage stress of switch
93.
low voltage stresses on switches and diodes
94.
low-/no-code
95.
low-alloy steel
96.
Low-and-Slow DoS attack
97.
low-carbon construction technology
98.
low-carbon ferritic-pearlitic steel
99.
low-carbon industry
100.
low-carbon technology
101.
low-code
102.
low-code development
103.
low-context and high-context
104.
low-density lipoprotein
105.
low-density lipoprotein (LDL) cholesterol
106.
low-density lipoprotein cholesterol
107.
low-density polyethylene
108.
low-density-polyethylene
109.
low-latency systems
110.
low-level control system transportation
111.
low-level fault redundancy
112.
low-level radiation
113.
Low-level RF EMF
114.
Low-moisture extrusion
115.
low-pass data filtering
116.
low-power ASIC design
117.
low-power device
118.
low-regime transition
119.
low-resistance hull
120.
low-resource
121.
low-resource languages
122.
low-temperature
123.
low-temperature heat sources
124.
low-temperature dependence photoluminescence
125.
low-temperature district heating
126.
low-temperature heat sources
127.
low-temperature plasma
128.
low-temperature sulphur corrosion
129.
low‐velocity anomalie
130.
low-voltage networks
131.
low-volume and make-to-order production
132.
oxidized low-density lipoproteins
133.
user in low voltage area
134.
Very-low temperature crystallization peak
subject term
1
1.
Low imPACK
×
vaste
starts with
ends with
containes
sort
Relevance
ascending
descending
year of publication
author
TTÜ department
subject term
series
name of the person
keyword
Otsing
Valikud
0
year of publication
AND
OR
NOT
author
AND
OR
NOT
TTÜ department
AND
OR
NOT
subject term
AND
OR
NOT
series
AND
OR
NOT
name of the person
AND
OR
NOT
keyword
AND
OR
NOT