Este documento proporciona instrucciones para configurar la conexión de red e IP de un video grabador, y acceder a él de forma remota y local. Explica cómo establecer la dirección IP, máscara de subred y puerta de enlace del dispositivo, y verificar que una dirección IP esté disponible. También cubre el acceso a través de un navegador web, la obtención de la IP externa del router, y la configuración del mismo para abrir puertos necesarios. Por último, detalla el uso de servicios DDNS para acceder extern
Hệ thống quan trắc khí thải tự động - Tư vấn: 0938-564-123Lâm Nguyễn Hoàng
Hệ thống quan trắc khí thải tự động cho chủ nguồn thải khí thải công nghiệp - Tư vấn đầu tư lắp đặt: lam.nguyen@vietan-enviro.com - 0938-564-123 (Mr Lâm)
The document summarizes an offline meeting discussing congnghegiay.com, a Vietnamese pulp and paper industry forum. It provides an overview of the forum, its achievements since being created in 2007, its mission to become the most famous quality forum in Vietnam for pulp and paper technology by 2013. It also reviews Vietnam's pulp and paper industry, noting its production capacity, usage, exports and imports, and situation. Finally, it outlines some big upcoming projects in the industry.
Este documento proporciona instrucciones para configurar la conexión de red e IP de un video grabador, y acceder a él de forma remota y local. Explica cómo establecer la dirección IP, máscara de subred y puerta de enlace del dispositivo, y verificar que una dirección IP esté disponible. También cubre el acceso a través de un navegador web, la obtención de la IP externa del router, y la configuración del mismo para abrir puertos necesarios. Por último, detalla el uso de servicios DDNS para acceder extern
Hệ thống quan trắc khí thải tự động - Tư vấn: 0938-564-123Lâm Nguyễn Hoàng
Hệ thống quan trắc khí thải tự động cho chủ nguồn thải khí thải công nghiệp - Tư vấn đầu tư lắp đặt: lam.nguyen@vietan-enviro.com - 0938-564-123 (Mr Lâm)
The document summarizes an offline meeting discussing congnghegiay.com, a Vietnamese pulp and paper industry forum. It provides an overview of the forum, its achievements since being created in 2007, its mission to become the most famous quality forum in Vietnam for pulp and paper technology by 2013. It also reviews Vietnam's pulp and paper industry, noting its production capacity, usage, exports and imports, and situation. Finally, it outlines some big upcoming projects in the industry.
The document provides an overview of tissue machine operator training, focusing on crepe tissue production and the factors that influence creping. It discusses how increasing percent crepe through differences in yankee and reel speeds can improve sheet properties like bulk and softness. It also explains that coatings are applied to the yankee dryer to hold the sheet during creping and help build a good roll, while release aids facilitate sheet removal and influence properties. Common problems and methods for adjusting crepe, coatings and release aids to protect the dryer surface and meet sheet specifications are described.
Ingeniería de vació. Bombas de vacío. Características. Nelson Izaguirre
Este documento trata sobre ingeniería de vacío en procesos industriales. Explica brevemente qué es el vacío, cómo funciona en la separación del agua de la mezcla fibra-agua en máquinas de papel, y los parámetros que afectan los efectos mecánicos y termodinámicos del vacío como permeabilidad, tiempo de residencia, diferencial de presión y temperatura. También discute posibles problemas relacionados con el vacío y la importancia de establecer niveles de diferencial de presión adecuados para cada tipo
Drying training Equipment Operation and control Nelson Izaguirre
No manufactured product plays a more significant role in every area of human activity than
paper and paper products. Its importance in everyday life is obvious from its use in
recording, storage and dissemination of information. Virtually all writing and printing is
done on paper. It is the most widely used wrapping and packaging material, and is
important for structural applications. The uses and applications for pulp and paper
products are virtually limitless. Apart from the products and services that it provides, the
paper and pulp industry is one of the major manufacturing industries in the world
providing employment for vast number of people and contribute to national economy.
The paper making process is essentially a very large dewatering operation where a diluted
solution of pulp suspension with less than 0.5% fibre solid is used. The major sections of a
paper machine consist of: forming section, press section and dryer section. In the forming
section, the fibres present in the diluted pulp and water slurry form paper web through
drainage by gravity and applied suction below the forming fabric. In the press section
additional water in removed by mechanical pressure applied through the nips of a series of
presses or rotating rolls and the wet web is consolidated in this section. Most of the
remaining water is evaporated and inter-fibre binding developed as the paper contacts a
series of steam heated cylinder in the dryer section. Water removal from the wet web to the
final moisture level between 6% and 7% is a critical step of papermaking. Majority of the
functional properties of paper are developed in this section.
In spite of its key role in papermaking, large equipment size, and large capital and operating
costs, drying is arguably the least understood papermaking operation. Books on
papermaking technology generally devote fewer pages to drying than other papermaking
operations such as forming, pressing or calendaring. A similar situation is found in
papermaking courses, in which drying occupies a shorter time than the proportion of space
it takes in a paper machine. Furthermore, a large portion of that time is devoted to the
description of the equipment by its suppliers rather than to its operation by the
papermakers.
ommon motion systems use three types of control methods. They are position control, velocity control and torque control.
The majority of Newport’s motion systems use position control. This type of control moves the load from one known fixed position to another known fixed position. Feedback, or closed-loop positioning, is important for precise positioning.
Velocity control moves the load continuously for a certain time interval or moves the load from one place to another at a prescribed velocity. Newport’s systems use both encoder and tachometer feedback to regulate velocity.
Torque control measures the current applied to a motor with a known torque coefficient in order to develop a known constant torque. Newport’s motion systems do not employ this method of control.
The document summarizes the operating principles and classifications of steam turbines. It discusses how steam turbines convert thermal energy from steam into mechanical energy by directing high velocity steam onto buckets attached to a rotating shaft. Steam turbines can be classified based on exhaust conditions, stage design, steam flow patterns, and number of stages. Condensing turbines exhaust steam to a condenser, while back pressure turbines maintain a higher exhaust pressure. Impulse turbines use nozzles to impart velocity on steam, while reaction turbines rely on expansion within buckets. Governors control steam flow to regulate turbine speed.
This document provides an overview of the Delta V distributed control system (DCS) being used. It describes the key components of the Delta V system including the engineering workstation, application workstation, operator workstations, controllers, I/O modules, and typical network schematic. It also summarizes the functions and features of the operator workstation including the buttons, common display elements or "dynamos" like gauges and valves, and the faceplates used for process monitoring and control.
The document provides an overview of various instrumentation topics including instrument symbols, flow and pressure measurement, temperature measurement, control valves, level measurement and control loops. It discusses common instrument types for measuring these process variables such as orifice plates, pressure gauges, thermocouples and level switches. It also covers related concepts such as sizing control valves using Cv, installing instruments properly and calibrating instruments.
By 2020 there will be 200 billion connected devices on the Internet of Things. Organizations driven by purpose and values outperformed the market 15-to-1. By 2025 the total worth of the Internet of Things (IoT) technology could be $6.2 trillion — most of that value is in healthcare ($2.5 trillion) and manufacturing ($2.3 trillion).
Clayton Industries is a manufacturer of industrial steam generation equipment founded in 1930. Balkanika Energy PLC is an authorized representative of Clayton Industries for the Balkan region. They offer feasibility studies, design, delivery, installation, and service of Clayton steam generators and related systems. Clayton steam generators provide advantages of fast start-up, high efficiency, reliability, and compact size to reduce costs.
This document summarizes several case studies of businesses and organizations that implemented energy efficiency solutions to reduce costs and increase savings. It describes old and new situations for each case including energy and cost details. Solutions implemented include a heat pump for hot water, solar panels for electricity production, cogeneration systems using biomass or natural gas, absorption chillers, biogas systems, geothermal pumps, and steam generators. Savings ranged from thousands to tens of thousands of euros annually with payback periods of 1.7 to 5.3 years for the investments made in new energy efficient technologies.
The document outlines the process for implementing an energy project from conceptualization through completion. It involves feasibility studies, design, contracting work, establishing financing, implementing activities according to a business plan and timetables, regular reporting, commissioning, and final reporting. It also provides examples of how the company's various products for thermal insulation, corrosion protection, fire resistance, and other functions can be combined and applied to pipes, manufacturing facilities, and buildings.
The document outlines the implementation process of a project including feasibility studies, planning, execution, commissioning, and energy management. It describes contracting organizations, financing institutions, and the principal/end result. The contractor is responsible for analysis, design, equipment, construction work, and regular reporting according to business plans and timetables. Commissioning involves receiving permission to use the final results and providing final reports to the principal and financing bodies.
This document is a product catalog for Capstone Microturbines, which are clean and efficient generators that can run on multiple fuel sources. The microturbines range in power output from 30kW to 1000kW and are used in distributed power generation applications. They have very low emissions and high reliability due to their simple design with only one moving part. Capstone Microturbines are a scalable and versatile solution for distributed power needs.
The document provides an overview of Viessmann, a German heating equipment manufacturer. It discusses the company's history and values of sustainability, innovation, quality, and reliability. Viessmann offers comprehensive product lines for heating systems across various fuel sources and applications. It emphasizes developing efficient and environmentally friendly technologies and training trade partners.
The document provides an overview of tissue machine operator training, focusing on crepe tissue production and the factors that influence creping. It discusses how increasing percent crepe through differences in yankee and reel speeds can improve sheet properties like bulk and softness. It also explains that coatings are applied to the yankee dryer to hold the sheet during creping and help build a good roll, while release aids facilitate sheet removal and influence properties. Common problems and methods for adjusting crepe, coatings and release aids to protect the dryer surface and meet sheet specifications are described.
Ingeniería de vació. Bombas de vacío. Características. Nelson Izaguirre
Este documento trata sobre ingeniería de vacío en procesos industriales. Explica brevemente qué es el vacío, cómo funciona en la separación del agua de la mezcla fibra-agua en máquinas de papel, y los parámetros que afectan los efectos mecánicos y termodinámicos del vacío como permeabilidad, tiempo de residencia, diferencial de presión y temperatura. También discute posibles problemas relacionados con el vacío y la importancia de establecer niveles de diferencial de presión adecuados para cada tipo
Drying training Equipment Operation and control Nelson Izaguirre
No manufactured product plays a more significant role in every area of human activity than
paper and paper products. Its importance in everyday life is obvious from its use in
recording, storage and dissemination of information. Virtually all writing and printing is
done on paper. It is the most widely used wrapping and packaging material, and is
important for structural applications. The uses and applications for pulp and paper
products are virtually limitless. Apart from the products and services that it provides, the
paper and pulp industry is one of the major manufacturing industries in the world
providing employment for vast number of people and contribute to national economy.
The paper making process is essentially a very large dewatering operation where a diluted
solution of pulp suspension with less than 0.5% fibre solid is used. The major sections of a
paper machine consist of: forming section, press section and dryer section. In the forming
section, the fibres present in the diluted pulp and water slurry form paper web through
drainage by gravity and applied suction below the forming fabric. In the press section
additional water in removed by mechanical pressure applied through the nips of a series of
presses or rotating rolls and the wet web is consolidated in this section. Most of the
remaining water is evaporated and inter-fibre binding developed as the paper contacts a
series of steam heated cylinder in the dryer section. Water removal from the wet web to the
final moisture level between 6% and 7% is a critical step of papermaking. Majority of the
functional properties of paper are developed in this section.
In spite of its key role in papermaking, large equipment size, and large capital and operating
costs, drying is arguably the least understood papermaking operation. Books on
papermaking technology generally devote fewer pages to drying than other papermaking
operations such as forming, pressing or calendaring. A similar situation is found in
papermaking courses, in which drying occupies a shorter time than the proportion of space
it takes in a paper machine. Furthermore, a large portion of that time is devoted to the
description of the equipment by its suppliers rather than to its operation by the
papermakers.
ommon motion systems use three types of control methods. They are position control, velocity control and torque control.
The majority of Newport’s motion systems use position control. This type of control moves the load from one known fixed position to another known fixed position. Feedback, or closed-loop positioning, is important for precise positioning.
Velocity control moves the load continuously for a certain time interval or moves the load from one place to another at a prescribed velocity. Newport’s systems use both encoder and tachometer feedback to regulate velocity.
Torque control measures the current applied to a motor with a known torque coefficient in order to develop a known constant torque. Newport’s motion systems do not employ this method of control.
The document summarizes the operating principles and classifications of steam turbines. It discusses how steam turbines convert thermal energy from steam into mechanical energy by directing high velocity steam onto buckets attached to a rotating shaft. Steam turbines can be classified based on exhaust conditions, stage design, steam flow patterns, and number of stages. Condensing turbines exhaust steam to a condenser, while back pressure turbines maintain a higher exhaust pressure. Impulse turbines use nozzles to impart velocity on steam, while reaction turbines rely on expansion within buckets. Governors control steam flow to regulate turbine speed.
This document provides an overview of the Delta V distributed control system (DCS) being used. It describes the key components of the Delta V system including the engineering workstation, application workstation, operator workstations, controllers, I/O modules, and typical network schematic. It also summarizes the functions and features of the operator workstation including the buttons, common display elements or "dynamos" like gauges and valves, and the faceplates used for process monitoring and control.
The document provides an overview of various instrumentation topics including instrument symbols, flow and pressure measurement, temperature measurement, control valves, level measurement and control loops. It discusses common instrument types for measuring these process variables such as orifice plates, pressure gauges, thermocouples and level switches. It also covers related concepts such as sizing control valves using Cv, installing instruments properly and calibrating instruments.
By 2020 there will be 200 billion connected devices on the Internet of Things. Organizations driven by purpose and values outperformed the market 15-to-1. By 2025 the total worth of the Internet of Things (IoT) technology could be $6.2 trillion — most of that value is in healthcare ($2.5 trillion) and manufacturing ($2.3 trillion).
Clayton Industries is a manufacturer of industrial steam generation equipment founded in 1930. Balkanika Energy PLC is an authorized representative of Clayton Industries for the Balkan region. They offer feasibility studies, design, delivery, installation, and service of Clayton steam generators and related systems. Clayton steam generators provide advantages of fast start-up, high efficiency, reliability, and compact size to reduce costs.
This document summarizes several case studies of businesses and organizations that implemented energy efficiency solutions to reduce costs and increase savings. It describes old and new situations for each case including energy and cost details. Solutions implemented include a heat pump for hot water, solar panels for electricity production, cogeneration systems using biomass or natural gas, absorption chillers, biogas systems, geothermal pumps, and steam generators. Savings ranged from thousands to tens of thousands of euros annually with payback periods of 1.7 to 5.3 years for the investments made in new energy efficient technologies.
The document outlines the process for implementing an energy project from conceptualization through completion. It involves feasibility studies, design, contracting work, establishing financing, implementing activities according to a business plan and timetables, regular reporting, commissioning, and final reporting. It also provides examples of how the company's various products for thermal insulation, corrosion protection, fire resistance, and other functions can be combined and applied to pipes, manufacturing facilities, and buildings.
The document outlines the implementation process of a project including feasibility studies, planning, execution, commissioning, and energy management. It describes contracting organizations, financing institutions, and the principal/end result. The contractor is responsible for analysis, design, equipment, construction work, and regular reporting according to business plans and timetables. Commissioning involves receiving permission to use the final results and providing final reports to the principal and financing bodies.
This document is a product catalog for Capstone Microturbines, which are clean and efficient generators that can run on multiple fuel sources. The microturbines range in power output from 30kW to 1000kW and are used in distributed power generation applications. They have very low emissions and high reliability due to their simple design with only one moving part. Capstone Microturbines are a scalable and versatile solution for distributed power needs.
The document provides an overview of Viessmann, a German heating equipment manufacturer. It discusses the company's history and values of sustainability, innovation, quality, and reliability. Viessmann offers comprehensive product lines for heating systems across various fuel sources and applications. It emphasizes developing efficient and environmentally friendly technologies and training trade partners.
The Biogreen process uses thermo-chemical conversion through torrefaction, pyrolysis and gasification to transform biomass, plastic, and waste into useful products like fuel, biochar, and gas. It reduces waste volumes while extracting benefits such as renewable energy, soil amendments, and chemical ingredients. The process was developed by ETIA, an engineering company that specializes in thermal treatment processes and equipment for bulk materials.
4. 3 proizvodne linije Clayton Industries
REKUPERATOR
OTPADNE TOPLOTE
Za povraćaj energije u tople
gasove od 200 °C do
1400 °C i proizvodnju
suvozasićene ili pregrejane
pare od 2000 do 12000 kg/h
PARNI GENERATORI
SA INTEGRISANIM
PREGREJAČEM
Procenjeni izlaz od 3 do 20
MW pregrejane pare sa
start-up vremenom
manjim od 5 minita
PARNI GENERATORI
Parna instalacija
sa izlazom suve 99,5%,
zasićene pare od 150 do
40000 kg/h sa pritiskom do
100 bari
6. Grejno spiralno telo
Princip rada Clayton parnog generatora
Clayton
pumpa
Para/voda
separator
Grejni prostor
Rezervoar kondenzata
Parni Generator
Tvrda voda
Para za
korisnika
Povrat kondenzata
8. Clayton spiralno grejno telo
Spiralno grejno telo Clayton parnog generatora je jedinstvenog dizajna
koji je razvijen za optimalni prenos toplote na svim izlaznim nivoima.
Spiralno grejno telo Clayton se sastoji iz jedne cevi kroz koju prolazi
voda koja je naslagana u spiralno uvijenim slojevima u gornjem delu
generatora i formira “vodeni zid ” oko komore za grejanje u donjem delu
generatora. Konfiguracija spirale, kao i varijacije u prečniku cevi, razmak
izmedju slojeva i razmak izmedju cevi promenljiv u različitim
temperaturnim zonama spirale su pazljivo dizajnirani da bi se povecala
efikasnist i time smanjila potrosnja goriva.
Spiralna konstrukcija je izuzetno robusna i sprečava efekte širenja
tokom brzih ciklusa grejanja i hladjenja. Spirala takodje prolazi kroz
termičku obradu da eliminiše naprezanja i svako spiralno telo je
testirano pod visokim pritiskom.
Dodatna prednost spiralnog dizajna je ta da se unutrašnje stanje moze
pratiti posmatranjem pritiska dolazne vode na ulazu u spiralno teloI. U
slučaju primene mazuta kao energenta, brizgaljke imaju zadak da uklone
naslage čadji sa spoljnih zidova spriralne cevi.
10. Clayton Separator Pare
Clayton Separator Pare je visokoefikasan, centrifugalnog je dizajna
i nema pokretnih delova. Izuzetno visok kvalitet pare se ostvaruje
čak i pod promenljivim uslovima opterećenja.
Mešavina pare/vode iz Clayton generatora se usmeravaju na ulaz
separatora gde se razdvajaju pomoću centrifugalne sile. Voda se
sakuplja a suva para se ispušta kroz gornji izlaz separatora.
Glavne prednosti su sledeće:
Suva- 99,5 %, zasićena para čak i pod promenljivim uslovima
opterećenja
Neosetljivost na sastav dolazne vode
Minimalni gubici pri odmuljivanju
11. Clayton Gorionik
Gorionik Clayton Generatora je posebno dizajniran kako
bi obezbedio potrebnu količinu plamena u komori za
grejanje i taj proces se završava pre oslobadjanja toplih
gasova preko spirale.
Ba bi se ovaj proces postigao, vazduh za sagorevanje
ulazi u kolektor gorionika velikom brzinom, gde se u
vrtlogu meša sa gorivom i formira plamen u obliku srca
gde se vrh plamena sklapa u zoni niskog pritiska.
Gorivo i vazduh se mešaju u preciznim odnosima i
plamen gorionika ide prema gore, što je i prirodni
pravac za plamen.
12. Clayton Pumpa
Clayton Pumpa je izuzetnog dizajna i proizvedena je
specijalno da obezbedi prinudnu cirkulaciju kroz spiralu
Clayton Parnog Sistema.
Pumpa Clayton je takvog tipa da svojim radom obezbedjuje
stabilnost protoka u širokom opsegu pod različitim uslovima
pritiska i ima niz mehaničkih prednosti. Konkretno Clayton
Pumpa ne zavisi od mehaničkog zaptivača, zaptivnih
prstenova kako bi razdvojila vodu koja se upumpava iz
pogonskog mehanizma.
Relativno visoke temperature vode ne utiču na rad Clayton
pumpe i njena konstrukcija je veoma snažna. Takodje
Clayton Pumpa je veoma pouzdana i laka za održavanje.
Pumpanje je proizvod kretanja membrane koja deluje protiv
vodenog stuba sa jedne strane membrane. Porast i pad
vodenog stuba stvara se oprugom na ulazu i izlazu
kontrolnog ventila na vrhu stuba za otvaranje i zatvaranje i to
stvara protok kroz pumpu.
Membrana se pomera u drugu starnu pokretanjem klipa koji
je polupotopljen u ulju.
13. Clayton Parni Generatori pružaju:
kontra-protok princip
- najveća efikasnost
- optimalno iskorišćenje grejne površine
specijalno dizajnirano grejno telo
- kontroliše prenos gasa
- optimalni prenos toplote
para/voda separator
- suva, zasićena para 99,5 %
- neosetljivost na sastav dolazne vode
- minimalni gubici pri odmuljivanju
Klipna pumpa
- kontroliše protok na vodenoj strani
- neosetljiv na kvalitet vode
- nema zaptivača- nema curenja
- jednostavna za održavanje
specifičan oblik plamena
- najveća efikasnost
- kompaktna komora za grejanje
- nizak NOx
Čišćenje čadji parnim brizgaljkama
- uvek čista grejna jedinica
- najveća efikasnost
- minimalno održavanje
Karakteristike: Prednosti:
sistem kontrole
- elektro ili PLC upravljanje
- lako povezivanje sa sistemom nadzora
- integrisana inteligencija
14. Clayton parni generator pruža nam
sledeće prednosti:
velika efikasnost od 20 do 100% opterećenja
smanjena cena goriva-gasa
kraće start-up vreme
zauzima malo prostora i nije težak
Brzo obezbedjuje paru pod punim pritiskom
Minimalni trošovi održavanja
u radu “topao”
stanje mirovanja
hladan u stanju mirovanja
u radu “hladan”
stanje mirovanja
16. CLAYTON
Tip
PARA
(kg/hr)
SNAGA
(kW)
E 10 157 98
E 15 235 147
E 20 313 196
E 26 407 255
E 40 626 392
E 50 783 490
E 60 939 589
E 80 1253 785
E 100 1566 981
E 125 1957 1226
E 185 2897 1815
E 154 2349 1471
E 204 3131 1962
E 254 3914 2432
E 304 4697 2943
E 354 5480 3433
E 404 6263 3924
E 504 7829 4905
E 604 9394 5886
E 704 10977 6868
E 1004 16000 10000
E 1204 18500 12000
E 1604 24000 16000
E 2004 30500 20000
Clayton asortiman
17. Clayton
Izduvni Gasni Kotlovi
Grejno telo
Clayton
pumpa
Para/voda
separator
Rezervoar kondenzata
Suva zasićena para
za korisnika
Povratak kondenzata
Grejno
telo
Pregrejana pare
Pregrejana para
za korisnika
Degazator
Povratak kondenzata
Para/voda
separator
Clayton
pumpa
19. Clayton Izduvni Gasni Kotlovi
pružaju:
kontra-protok princip
- kompaktan dizajn
- maksimalna toplotna efikasnost
- sadrži malu količinu vode
ravne cevi
- minimalni rizik od pozara
- lako za čišćenje
- niska temperatura površine
- niska temperatura izduvnih gasova
standardne sekcije
- kratko vreme isporuke (do korisnika)
- approved construction
- modularni sistem, jednostavan za
transport i lak za instaliranje
Prinudna cirkulacija
- bez nivelisanja u kotlu
- slobodan izbor pravca:
gasa i vode
rasporedjena konfiguracija cevi
- optimalni prenos toplote
- minimalno nakupljanje čadji
- kontrolisan protok gasa
Veliki uticaj sistema za čišćenje
- laka za upotrebu
- najveća iskorišćenost
- minimalni troškovi
Prednosti:
spiralno uvijene cevi
- slobodno širenje
- suva moguća do 450°C
temperatura izduvnih gasova
Karakteristike:
21. Clayton Parni Generator
sa integrisanim predgrejačem pare
KOMORA
ZA GREJANJE
Napojna
voda
Voda/para
separator
Izduvni gasovi
Pregrejana para
Zasićena
Para
22. Balkanika Energy PLC
“BALKANIKA ENERGY” PLC, je
dugogodišnji partner i predstavnik "Clayton
of Belgium" NV ya teritoriju Balkana.
Kompanija ima tim iskusnih profesionalaca
koji su završili sve potrebne kurseve u
Clayton Industries fabrici u Belgijskom
gradu Bornem.
“BALKANIKA ENERGY” PLC. Je ovlašćena
od strane "Clayton of Belgium" NV, da vrši
sledeće usluge:
Dizajn parnih sistema na bazi
Clayton proizvoda.
Isporuka i kvalitetna montaza
Clayton proizvoda.
Garancija podešavanja i puštanja u rad
Servis u garantnom i vangarantnom
periodu.
23. Balkanika Energy PLC
offer:
Diskontni faktor –
realan scenario % 5.00%
Diskontni faktor –
pesimistički scenario % 6.00%
Diskontni faktor –
Optimistički scenario % 4.00%
Inflacioni koeficijent 1.05
Potencijalna godišnja potrošnja
gasa pre ulaganja м3 807 580
Godišnja potrošnja gasa nakon
investicije м3 639 614
Cena gasa лв./м3 0.717
Investicija za modernizaciju sistema
generatora pare лв 283 582.00
Sa popustom troškova tokom investiranja
-5 510 772.10
лв/10 godine Sa popustom troškova tokom investiranja – realan scenario
-5 458 783.68 лв/10 godine Sa popustom troškova tokom investiranja – pesimistički scenario
-5 563 760.29
лв/10 години Sa popustom troškova tokom investiranja – optimistički scenario
Sa popustom troškova posle investicije
-4 364 604.10
лв/10 godine Sa popustom troškova posle investicije - realan scenario
-4 323 428.59
лв/10 godine Sa popustom troškova posle investicije – pesimistički scenario
-4 406 571.45 лв/10 godine Sa popustom troškova posle investicije – optimistički scenario
Uštede kao rezultat investicije
1 146 167.99
лв/10 godine Ušteda za 10 godina- realan scenario
1 135 355.08
лв/10 godine Ušteda za 10 godina- pesimistički scenario
1 157 188.84
лв/10 godine Ušteda za 10 godina- optimistički scenario
304.18% ROI POVRATAK INVESTICIJE В %
2.5 PBP PERIOD OTPLATE
Koristeći iskustvo i znanje našeg tima , “Balkanika
Energy” moze ponuditi svojim klijentima pripremanje
studije izvodljivosti za modernizaciju postojećih ili
izgradnju novih sistema za stvaranje pare.
“Balkanika Energy”. Ima iskustvo i znanje za obavljanje ,
vodjenje
celokupnog procesa u implementaciji celokupnog projekta.
OBIM STUDIJE IZVODLJIVOSTI
Slikanje i merenje trenutne situacije i
troškovi procesa
Izbor mogućih tehnoloških rešenja
Komparativna analiza izvodljivosti
Finansijski izveštaj za profitabilnost
tehnologije sistema odabran od strane klijenta
24. Balkanika Energy PLC
pruža:
PROJEKTOVANJE
Naše dugogodišnje iskustvo i dobro poznavanje
proizvoda Clayton, omogućava nam da ponudimo
našim klijentima:
Izrada projekta (šema protoka)
u skladu sa posebnim potrebama kupaca i
proizvodnih procesa.
Razvoj tehničkih i radnih projekata
o trenutnimregulatornim standardima.
Koordinacija projekata.
25. Balkanika Energy PLC
pruža:
ISPORUKA, INSTALIRANJE,
GARANCIJA, START-UP I PODEŠAVANJE
Isporuka opreme po povlašćenoj ceni.
Izgradnja kompletne instalacije “ključ u ruke”
od strane tima kvalifikovanih i iskusnih specijalista.
Podešavanje, garancija pokretanja sistema i
podrška u puštanju u rad.
26. Balkanika Energy PLC
pruža:
KVALIFIKOVANI SERVIS
Garancija "Clayton Industries" i naše znanje
kao rezultat prolaza specijalnih obuka nam
omogućuje da ponudimo:
Garantni servis.
Vangarantni servis.
Pretplata na održavanje
parnog sistema.
Obuka zaposlenih.