This document provides a reference list of 78 CHP (combined heat and power) projects completed by BROAD Group between 2001 and 2008. It includes information such as the location, cooling and heating capacities, energy source, and generator type for each project. The projects range in size from 20kW to over 9000kW and served a variety of customers including universities, industrial plants, commercial buildings, and utilities in countries around the world.
This document analyzes the energy and exergy of an extraction back-pressure steam turbine used in a power plant in India. It evaluates the turbine's energy efficiency, exergy destruction, and exergy efficiency at 70% and 85% of maximum continuous rating. The analysis shows that operating the turbine at 85% rating improves the heat rate by 17.01 kJ/kWh, reducing CO2 emissions by 26.89 kg/h, SO2 emissions by 26.89 kg/h, and ash generation by 41.47 kg/day. Exergy, or the useful work potential of energy, provides a more complete analysis than energy alone by considering both quantity and quality of energy.
A solar ejector cooling system using refrigerant r141bMark Murray
This document describes a solar ejector cooling system that uses R141b as the working fluid. Key points:
- The system achieves a high coefficient of performance (COP) of 0.5 experimentally for single-stage cooling at a generation temperature of 90°C, condensing temperature of 28°C, and evaporating temperature of 8°C.
- For solar cooling, the overall COP is estimated to be around 0.22 at a generation temperature of 95°C, evaporating temperature of 8°C, and solar radiation of 700 W/m2.
- The solar ejector cooling system is simpler than absorption cooling systems and has potential for solar refrigeration applications with an optimum overall
Power saving ideas implemented practicallySakshi Vashist
SAVINGS THROUGH
VFD’s
SAVINGS THROUGH
COMPRESSORS & CHILLING PLANT
SAVINGS BY REPLACING DYNO DRIVES MOTORS
WITH
INDUCTION MOTORS & SPEED CONTROL WITH VFD’s.
SAVINGS THROUGH
ENERGY EFFICIENT MOTORS
SAVINGS THROUGH
ENERGY EFFICIENT PUMPS
SAVINGS THROUGH
TUBE WELL RUN HRS & REPLACING INEFFICIENT WATER PUMPS
SAVINGS THROUGH
OPTIMIZATION OF EQUIPMENTS
A four power piston low-temperature differential stirlinggargashrut91
This document summarizes research on a four power-piston low-temperature differential Stirling engine using simulated solar energy as a heat source. Key findings include:
1) The engine was tested at various solar intensities up to a maximum of 1378 W and a heater temperature of 439 K.
2) At these maximum conditions, the engine produced a maximum torque of 2.91 N m, shaft power of 6.1 W, and brake thermal efficiency of 0.44% at 20 rpm.
3) Research is summarized on using low-temperature heat sources for Stirling engines and measuring their performance characteristics including Beale number.
The document summarizes a presentation on the Small Modular Advanced High Temperature Reactor (SmAHTR) concept. Key points include:
- SmAHTR is a 125 MWth, integral, truck transportable, high temperature salt-cooled reactor concept designed for both electricity and process heat production.
- It uses annular cylindrical fuel compacts, has a core inlet/outlet temperature of 650-700°C, and employs a two-out-of-three approach for operational and passive decay heat removal via in-vessel and ex-vessel heat exchangers.
- Challenges include optimizing the fuel and core design, matching with Brayton power conversion, and developing
6 ta data sheet - flypartsguy.com - 8.2018FrankEasel
This document provides specifications for a Weichai America Corp. WP06GTA engine. It includes basic data on displacement, cylinder configuration, bore, stroke, compression ratio and other details. Performance data is given for both natural gas and liquid propane gas fuels under gross standby and prime power ratings according to ISO 3046 standards. Thermal balance numbers and fuel consumption curves over engine speed are also specified.
Siemens offers a range of industrial gas turbines from 5 to 50 megawatts for power generation and mechanical drive applications. Their gas turbine product line includes 9 models (SGT-100 to SGT-800) that are designed for high efficiency, reliability, and low emissions. The turbines run on natural gas and can also use other fuels. They provide solutions for power generation, cogeneration, mechanical drives, and compression applications in industries such as oil/gas, marine, chemicals and more.
10 ta data sheet - flypartsguy.com - 8.2018FrankEasel
This document provides specifications for a Weichai America Corp WP10GTA engine. It includes basic data on displacement, cylinder configuration, aspiration, power ratings, thermal balance, weight and dimensions, cooling system details, lubrication system specs, and fuel consumption curves. The engine is an inline 4-cycle diesel with a bore and stroke of 126mm x 130mm, producing 284.6 kW at 212.2 HP on natural gas and 216.8 kW at 161.7 HP on liquid propane gas under ISO 3046 test conditions.
This document analyzes the energy and exergy of an extraction back-pressure steam turbine used in a power plant in India. It evaluates the turbine's energy efficiency, exergy destruction, and exergy efficiency at 70% and 85% of maximum continuous rating. The analysis shows that operating the turbine at 85% rating improves the heat rate by 17.01 kJ/kWh, reducing CO2 emissions by 26.89 kg/h, SO2 emissions by 26.89 kg/h, and ash generation by 41.47 kg/day. Exergy, or the useful work potential of energy, provides a more complete analysis than energy alone by considering both quantity and quality of energy.
A solar ejector cooling system using refrigerant r141bMark Murray
This document describes a solar ejector cooling system that uses R141b as the working fluid. Key points:
- The system achieves a high coefficient of performance (COP) of 0.5 experimentally for single-stage cooling at a generation temperature of 90°C, condensing temperature of 28°C, and evaporating temperature of 8°C.
- For solar cooling, the overall COP is estimated to be around 0.22 at a generation temperature of 95°C, evaporating temperature of 8°C, and solar radiation of 700 W/m2.
- The solar ejector cooling system is simpler than absorption cooling systems and has potential for solar refrigeration applications with an optimum overall
Power saving ideas implemented practicallySakshi Vashist
SAVINGS THROUGH
VFD’s
SAVINGS THROUGH
COMPRESSORS & CHILLING PLANT
SAVINGS BY REPLACING DYNO DRIVES MOTORS
WITH
INDUCTION MOTORS & SPEED CONTROL WITH VFD’s.
SAVINGS THROUGH
ENERGY EFFICIENT MOTORS
SAVINGS THROUGH
ENERGY EFFICIENT PUMPS
SAVINGS THROUGH
TUBE WELL RUN HRS & REPLACING INEFFICIENT WATER PUMPS
SAVINGS THROUGH
OPTIMIZATION OF EQUIPMENTS
A four power piston low-temperature differential stirlinggargashrut91
This document summarizes research on a four power-piston low-temperature differential Stirling engine using simulated solar energy as a heat source. Key findings include:
1) The engine was tested at various solar intensities up to a maximum of 1378 W and a heater temperature of 439 K.
2) At these maximum conditions, the engine produced a maximum torque of 2.91 N m, shaft power of 6.1 W, and brake thermal efficiency of 0.44% at 20 rpm.
3) Research is summarized on using low-temperature heat sources for Stirling engines and measuring their performance characteristics including Beale number.
The document summarizes a presentation on the Small Modular Advanced High Temperature Reactor (SmAHTR) concept. Key points include:
- SmAHTR is a 125 MWth, integral, truck transportable, high temperature salt-cooled reactor concept designed for both electricity and process heat production.
- It uses annular cylindrical fuel compacts, has a core inlet/outlet temperature of 650-700°C, and employs a two-out-of-three approach for operational and passive decay heat removal via in-vessel and ex-vessel heat exchangers.
- Challenges include optimizing the fuel and core design, matching with Brayton power conversion, and developing
6 ta data sheet - flypartsguy.com - 8.2018FrankEasel
This document provides specifications for a Weichai America Corp. WP06GTA engine. It includes basic data on displacement, cylinder configuration, bore, stroke, compression ratio and other details. Performance data is given for both natural gas and liquid propane gas fuels under gross standby and prime power ratings according to ISO 3046 standards. Thermal balance numbers and fuel consumption curves over engine speed are also specified.
Siemens offers a range of industrial gas turbines from 5 to 50 megawatts for power generation and mechanical drive applications. Their gas turbine product line includes 9 models (SGT-100 to SGT-800) that are designed for high efficiency, reliability, and low emissions. The turbines run on natural gas and can also use other fuels. They provide solutions for power generation, cogeneration, mechanical drives, and compression applications in industries such as oil/gas, marine, chemicals and more.
10 ta data sheet - flypartsguy.com - 8.2018FrankEasel
This document provides specifications for a Weichai America Corp WP10GTA engine. It includes basic data on displacement, cylinder configuration, aspiration, power ratings, thermal balance, weight and dimensions, cooling system details, lubrication system specs, and fuel consumption curves. The engine is an inline 4-cycle diesel with a bore and stroke of 126mm x 130mm, producing 284.6 kW at 212.2 HP on natural gas and 216.8 kW at 161.7 HP on liquid propane gas under ISO 3046 test conditions.
The document presents details of a proposed 32 MW captive power plant project in an existing ferro alloy unit. The key points are:
1) The existing ferro alloy plant stopped operations 10 years ago due to unreliable power supply and the proposed CPP will generate 32 MW of power for the plant's operations.
2) The CPP will use Indonesian coal as fuel in a 140 TPH fluidized bed boiler to generate power. It will require 418 m3/day of water and generate 245 m3/day of effluents.
3) An electrostatic precipitator and stack of adequate height will be installed to control air pollutants from the boiler and ensure they meet standards after dispersion.
10 na data sheet - flypartsguy.com - 9.2018FrankEasel
This document provides specifications for a Weichai America Corp WP10GNA engine. It lists technical details such as the engine being an inline 4-cylinder with 9.7L displacement. Performance data is provided for both natural gas and liquid propane operation, including gross and net power ratings at various speeds. Charts show torque, power and fuel consumption curves across the engine speed range. Additional details include dimensions, weight, cooling and lubrication system capacities.
Pyrolysis is a thermal decomposition process that converts organic materials into solid, liquid, and gas products without oxygen. Fast pyrolysis occurs between 400-600°C and favors maximum liquid production around 500°C. A benefit of pyrolysis is that it produces a liquid bio-oil that is more readily stored and transported than gases. Dr. Cramton has developed a fast pyrolysis reactor that converts materials like waste, biomass, coal, and tires into high energy gas and oil. The system has no harmful emissions and can produce gas and oil simultaneously for power generation while meeting all environmental standards.
Siemens offers an industrial gas turbine product range from 5 to 50 megawatts for power generation and mechanical drive applications. Their gas turbines run on natural gas and offer high efficiency and low emissions. Siemens provides solutions for power producers, industrial plants, and the oil and gas industry involving gas turbine sets, combined heat and power plants, and lifetime service packages.
13 ta data sheet - flypartsguy.com - 10.2018FrankEasel
- The document provides specifications for a Weichai America Corp WP13GTA engine, including its type, dimensions, performance ratings, thermal balance, weight and other technical details.
- It is an inline 6-cylinder 4-stroke engine with a displacement of 12.54 liters. Maximum power output is 313.9 kW at the flywheel on natural gas and 202.4 kW on liquid propane gas.
- Additional details provided include air and fuel system specifications, cooling and lubrication systems, electrical system specifications, and performance curves.
Bokaro Power Supply Company Pvt. Ltd. (BPSCL) generates 302MW of power and 660 tons per hour of steam as a joint venture between SAIL and DVC. It provides power and steam to Bokaro Steel Plant. The power plant has 9 boilers and 7 turbine generators. It uses coal, blast furnace gas, and coke oven gas as fuels. The plant has a coal handling plant, water treatment plant, and other mechanical and electrical operations to generate and distribute steam and power. Rahul Raj completed his industrial training at BPSCL and submitted this report as partial fulfillment of his Bachelor of Engineering degree.
Vogtle 3&4 - Cleaner Energy Means Clean Airandrewbouldin
Nuclear energy provides clean, safe, and cost-effective power for Georgia. Nuclear plants release zero greenhouse gases while generating electricity. The two new nuclear reactors being built at Plant Vogtle, Units 3 and 4, will help meet Georgia's growing energy needs while producing power with no emissions. The new units use advanced nuclear technology that incorporates passive safety systems. Nuclear energy currently supplies about 20% of Georgia's power and is an important part of the state's energy portfolio.
This document discusses heat pump technology and Mayekawa heat pump products. It provides technical specifications and performance data for Mayekawa reciprocating and screw compressor heat pumps, including the N6HK and N160GHS models. It also presents three case studies where Mayekawa heat pumps were installed to produce hot water for district heating, industrial processes, and overcompression applications. The document concludes with information on Mayekawa's global presence and availability of its heat pump products worldwide.
The document summarizes the key features and specifications of the MT250 Series Microturbine from Ingersoll Rand. It is a 250 kW continuous onsite electrical power generation system with integrated heat recovery. Some of its main components include a patented recuperator and combustor, as well as a synchronous generator. It can operate in grid-parallel or grid-isolated modes and meets stringent emissions regulations.
This document discusses right triangles on May 12, 2014. It covers right triangles and their properties over multiple pages. The key topic is right triangles and how to understand their characteristics and relationships between sides and angles.
This document appears to be a log of activities that took place over two days, April 3rd and 4th, 2014. However, no specific activities or events are described within the document itself, which only repeats the date header five times without providing any additional context or information about what occurred.
1. The document discusses market analysis, customer classification, pricing philosophy, and promotion strategies for absorption chillers in Egypt.
2. The target market was divided into existing projects and under construction projects. Customer visits, scientific events, and advertisements in newspapers and magazines were used to promote absorption chillers.
3. Customers were classified into three classes based on their awareness of and financial support for absorption technology. Different promotion and pricing approaches were used for each class.
4. Achievements so far included identifying interested projects through market analysis and representation of the company at an event organized by a governmental organization.
The document discusses adding and subtracting radicals. It reviews collecting like terms and then explains that to add or subtract radicals, you add the coefficients of like terms, which are radicals that have the same index and radicand. Examples are provided to demonstrate adding and subtracting radicals.
This document provides information about BROAD, a Chinese company that manufactures non-electric chillers and combined heat and power (CHP) systems. It discusses BROAD's history and achievements, product lines, applications of CHP technology, and case studies of BROAD CHP installations around the world. The case studies describe how BROAD systems utilize waste heat from on-site power generation to provide cooling and heating in an efficient manner, reducing energy costs and carbon emissions significantly compared to conventional systems.
More simplifying radicals & solving quadratic equationsJoanne Rosa Crooks
The document provides examples for solving quadratic equations using two methods: 1) isolating the squared term and taking the square root of both sides and 2) adding/subtracting values to isolate the squared term. Examples provided include solving equations like x^2 = 324, x^2 + 5 = 23, 2(x+5)^2 - 3 = 45, (x-7)^2 - 5 = 75, and (x+2)^2 = 28. Readers are prompted to try solving (x-7)^2 - 5 = 75 on their own.
This document discusses the parts of a right triangle, listing the opposite leg, adjacent leg, and hypotenuse multiple times on May 4, 2014. It focuses on the basic geometric terms for the sides of a right triangle.
The document provides examples of solving quadratic equations by taking the square root of both sides of the equation. It shows isolating the squared term, taking the square root of both sides, and solving for x. Three example equations are given and worked through as examples: x^2=324, x^2+5=23, and 2(x+5)^2-3=45. The reader is then prompted to solve the equations 3x^2=36, (x-7)^2-5=75, and (x+2)^2=28.
This document summarizes the financial performance and hedging strategy of SGSTL, an export-oriented company. In the first quarter of 2011-12, SGSTL reported total sales of Rs. 587.69 crore, with steel division sales of Rs. 411.32 crore and lighting division sales of Rs. 176.37 crore. Profit before tax for the quarter was Rs. 11.20 crore. The document also outlines SGSTL's existing and proposed bank limits, with SBI, PNB, and State Bank of Patiala as the major banks in the consortium. SGSTL is seeking an increase in working capital limits from Rs. 620 crore to Rs. 861.69
This document contains instructions on solving linear systems through substitution and elimination methods. It provides examples of linear systems and shows the steps to solve them using substitution, where one equation is substituted into the other, and elimination, where equations are combined to eliminate a variable. The document is divided into sections covering different types of linear systems and solution methods.
This document discusses common logarithms and how to evaluate logarithmic expressions with and without a calculator. It provides examples of rewriting exponential expressions as logarithmic expressions by setting them equal to variables and manipulating the equations. It also introduces the change of base formula for evaluating logarithms with bases other than 10.
The document presents details of a proposed 32 MW captive power plant project in an existing ferro alloy unit. The key points are:
1) The existing ferro alloy plant stopped operations 10 years ago due to unreliable power supply and the proposed CPP will generate 32 MW of power for the plant's operations.
2) The CPP will use Indonesian coal as fuel in a 140 TPH fluidized bed boiler to generate power. It will require 418 m3/day of water and generate 245 m3/day of effluents.
3) An electrostatic precipitator and stack of adequate height will be installed to control air pollutants from the boiler and ensure they meet standards after dispersion.
10 na data sheet - flypartsguy.com - 9.2018FrankEasel
This document provides specifications for a Weichai America Corp WP10GNA engine. It lists technical details such as the engine being an inline 4-cylinder with 9.7L displacement. Performance data is provided for both natural gas and liquid propane operation, including gross and net power ratings at various speeds. Charts show torque, power and fuel consumption curves across the engine speed range. Additional details include dimensions, weight, cooling and lubrication system capacities.
Pyrolysis is a thermal decomposition process that converts organic materials into solid, liquid, and gas products without oxygen. Fast pyrolysis occurs between 400-600°C and favors maximum liquid production around 500°C. A benefit of pyrolysis is that it produces a liquid bio-oil that is more readily stored and transported than gases. Dr. Cramton has developed a fast pyrolysis reactor that converts materials like waste, biomass, coal, and tires into high energy gas and oil. The system has no harmful emissions and can produce gas and oil simultaneously for power generation while meeting all environmental standards.
Siemens offers an industrial gas turbine product range from 5 to 50 megawatts for power generation and mechanical drive applications. Their gas turbines run on natural gas and offer high efficiency and low emissions. Siemens provides solutions for power producers, industrial plants, and the oil and gas industry involving gas turbine sets, combined heat and power plants, and lifetime service packages.
13 ta data sheet - flypartsguy.com - 10.2018FrankEasel
- The document provides specifications for a Weichai America Corp WP13GTA engine, including its type, dimensions, performance ratings, thermal balance, weight and other technical details.
- It is an inline 6-cylinder 4-stroke engine with a displacement of 12.54 liters. Maximum power output is 313.9 kW at the flywheel on natural gas and 202.4 kW on liquid propane gas.
- Additional details provided include air and fuel system specifications, cooling and lubrication systems, electrical system specifications, and performance curves.
Bokaro Power Supply Company Pvt. Ltd. (BPSCL) generates 302MW of power and 660 tons per hour of steam as a joint venture between SAIL and DVC. It provides power and steam to Bokaro Steel Plant. The power plant has 9 boilers and 7 turbine generators. It uses coal, blast furnace gas, and coke oven gas as fuels. The plant has a coal handling plant, water treatment plant, and other mechanical and electrical operations to generate and distribute steam and power. Rahul Raj completed his industrial training at BPSCL and submitted this report as partial fulfillment of his Bachelor of Engineering degree.
Vogtle 3&4 - Cleaner Energy Means Clean Airandrewbouldin
Nuclear energy provides clean, safe, and cost-effective power for Georgia. Nuclear plants release zero greenhouse gases while generating electricity. The two new nuclear reactors being built at Plant Vogtle, Units 3 and 4, will help meet Georgia's growing energy needs while producing power with no emissions. The new units use advanced nuclear technology that incorporates passive safety systems. Nuclear energy currently supplies about 20% of Georgia's power and is an important part of the state's energy portfolio.
This document discusses heat pump technology and Mayekawa heat pump products. It provides technical specifications and performance data for Mayekawa reciprocating and screw compressor heat pumps, including the N6HK and N160GHS models. It also presents three case studies where Mayekawa heat pumps were installed to produce hot water for district heating, industrial processes, and overcompression applications. The document concludes with information on Mayekawa's global presence and availability of its heat pump products worldwide.
The document summarizes the key features and specifications of the MT250 Series Microturbine from Ingersoll Rand. It is a 250 kW continuous onsite electrical power generation system with integrated heat recovery. Some of its main components include a patented recuperator and combustor, as well as a synchronous generator. It can operate in grid-parallel or grid-isolated modes and meets stringent emissions regulations.
This document discusses right triangles on May 12, 2014. It covers right triangles and their properties over multiple pages. The key topic is right triangles and how to understand their characteristics and relationships between sides and angles.
This document appears to be a log of activities that took place over two days, April 3rd and 4th, 2014. However, no specific activities or events are described within the document itself, which only repeats the date header five times without providing any additional context or information about what occurred.
1. The document discusses market analysis, customer classification, pricing philosophy, and promotion strategies for absorption chillers in Egypt.
2. The target market was divided into existing projects and under construction projects. Customer visits, scientific events, and advertisements in newspapers and magazines were used to promote absorption chillers.
3. Customers were classified into three classes based on their awareness of and financial support for absorption technology. Different promotion and pricing approaches were used for each class.
4. Achievements so far included identifying interested projects through market analysis and representation of the company at an event organized by a governmental organization.
The document discusses adding and subtracting radicals. It reviews collecting like terms and then explains that to add or subtract radicals, you add the coefficients of like terms, which are radicals that have the same index and radicand. Examples are provided to demonstrate adding and subtracting radicals.
This document provides information about BROAD, a Chinese company that manufactures non-electric chillers and combined heat and power (CHP) systems. It discusses BROAD's history and achievements, product lines, applications of CHP technology, and case studies of BROAD CHP installations around the world. The case studies describe how BROAD systems utilize waste heat from on-site power generation to provide cooling and heating in an efficient manner, reducing energy costs and carbon emissions significantly compared to conventional systems.
More simplifying radicals & solving quadratic equationsJoanne Rosa Crooks
The document provides examples for solving quadratic equations using two methods: 1) isolating the squared term and taking the square root of both sides and 2) adding/subtracting values to isolate the squared term. Examples provided include solving equations like x^2 = 324, x^2 + 5 = 23, 2(x+5)^2 - 3 = 45, (x-7)^2 - 5 = 75, and (x+2)^2 = 28. Readers are prompted to try solving (x-7)^2 - 5 = 75 on their own.
This document discusses the parts of a right triangle, listing the opposite leg, adjacent leg, and hypotenuse multiple times on May 4, 2014. It focuses on the basic geometric terms for the sides of a right triangle.
The document provides examples of solving quadratic equations by taking the square root of both sides of the equation. It shows isolating the squared term, taking the square root of both sides, and solving for x. Three example equations are given and worked through as examples: x^2=324, x^2+5=23, and 2(x+5)^2-3=45. The reader is then prompted to solve the equations 3x^2=36, (x-7)^2-5=75, and (x+2)^2=28.
This document summarizes the financial performance and hedging strategy of SGSTL, an export-oriented company. In the first quarter of 2011-12, SGSTL reported total sales of Rs. 587.69 crore, with steel division sales of Rs. 411.32 crore and lighting division sales of Rs. 176.37 crore. Profit before tax for the quarter was Rs. 11.20 crore. The document also outlines SGSTL's existing and proposed bank limits, with SBI, PNB, and State Bank of Patiala as the major banks in the consortium. SGSTL is seeking an increase in working capital limits from Rs. 620 crore to Rs. 861.69
This document contains instructions on solving linear systems through substitution and elimination methods. It provides examples of linear systems and shows the steps to solve them using substitution, where one equation is substituted into the other, and elimination, where equations are combined to eliminate a variable. The document is divided into sections covering different types of linear systems and solution methods.
This document discusses common logarithms and how to evaluate logarithmic expressions with and without a calculator. It provides examples of rewriting exponential expressions as logarithmic expressions by setting them equal to variables and manipulating the equations. It also introduces the change of base formula for evaluating logarithms with bases other than 10.
This document discusses transformations of the square root function y=√x. It includes:
1) Matching equations like y=3√x and y=√x/2 to their graphs by graphing the parent function first.
2) Explaining that a negative sign in front of the square root, like y=-√x, reflects the graph over the x-axis.
3) Having students work in groups to draw transformed square root graphs, identify the transformation, and write the domain and range.
When dividing radicals, only the numbers outside the radicals are divided in the numerator and denominator, and the same for numbers inside radicals. This can sometimes leave a radical in the denominator, which is improper. To fix this, a process called rationalizing the denominator is used to remove radicals from the denominator. Examples are provided of dividing radicals and rationalizing denominators.
This document contains a math worksheet on graphing transformations of the parent function y=x. Students are asked to graph various transformations that involve shifts, stretches, shrinks, and reflections. They are also asked to describe the domain, range, intercepts, and end behavior of different transformed functions.
The document summarizes power generation and distribution infrastructure at an industrial facility. It describes:
- Two 11kV feeders from the local utility that distribute power to different substations within the facility for reliability.
- Four generator units with a total capacity of 29.1MW commissioned between 1997-2017 with different engine/turbine technologies that provide power to areas of the facility.
- Costs of power from the local utility versus on-site generation.
- Monitoring and control systems used to manage the distributed generation assets and power quality across the network.
AuGPS is a 663.36 MW combined cycle power plant located in Auraiya, India. It was commissioned in 1989-1990 and uses natural gas and naphtha as fuels. The plant has 4 gas turbines, 4 waste heat recovery boilers, and 2 steam turbines. It also has emergency backup systems like an emergency gas turbine and uninterruptible power supply. The plant is connected to the transmission grid through several 400 kV and 220 kV transmission lines. AuGPS was India's first combined cycle power plant and successfully started generation after a major grid failure in 2012, receiving government appreciation.
This document summarizes a proposed 5 MW hybrid solar thermal and biomass power plant. The plant uses parabolic trough solar collectors to pre-heat water to 250°C which is then used in a biomass-fired boiler to generate superheated steam at 450°C for a turbine. Biomass gasifiers produce syngas to fuel the boiler. The plant is expected to generate 3.72 GWh annually, with solar contributing 18% or 0.67 GWh. Annual biomass consumption is projected at 36,000 tonnes. Financial projections assume a total project cost of 933.6 million INR with debt financing at 70% and interest rates of 13%.
Incepted in 2007, Urja Thermal Solutions is a prominent company engaged in the Manufacturing, Exporting and supplying of Thermal Solutions. The company is working under the valuable assistance of its Owner, Mr. Swapnil Gautam. His successful contribution has helped the company grow in leaps and bounds. The company is located in Mumbai, Maharashtra.
The document provides information on the basic properties of fuel used in diesel engines, including mass density of fuel at standard and other temperatures, and heating or calorific values including higher heating value (HHV) and lower heating value (LHV). It also gives sample problems calculating engine properties like indicated power, brake power, mechanical efficiency, and thermal efficiency based on fuel consumption, heating value, temperature and other engine operating parameters.
Thermal power plants generate 67.7% of Pakistan's electricity. The Jamshoro plant has an installed capacity of 880 MW from 4 units, with Units 2, 3, and 4 each having a capacity of 210 MW. These units use subcritical reheat Rankine cycles with steam conditions of 132kg/cm2 pressure and 538°C temperature, and 24.5kg/cm2 reheat pressure. The plant has conventional components like boilers, turbines, generators, condensers, and pumps.
The document provides an overview of the Narora Atomic Power Station (NAPS) in India. It includes details on:
1) NAPS plant layout which includes the reactor building, turbine building and common facilities.
2) Key specifications of NAPS such as its capacity of 2x220MWe, use of natural uranium fuel and heavy water moderator.
3) Descriptions of the nuclear reactor system including the primary heat transport system, moderator system and steam cycle that drives the turbine generator.
Indian scenario of super critical power plants issues and challenges by ntpc...Ajay Singhal
This document discusses supercritical power plants in India, including:
1. NTPC operates several supercritical power plants in India with a total installed capacity of 3,300 MW. Their Sipat plant includes 3 x 660 MW supercritical units.
2. Supercritical technology provides benefits like reduced emissions, improved efficiency, and lower fuel costs compared to subcritical plants.
3. Operating supercritical plants presents issues and challenges related to boiler control, chemistry regimes, and performance optimization. NTPC's experience provides lessons for addressing these challenges.
The document summarizes the design and analysis of a solar absorption chiller with phase change material (PCM) for cooling telecommunication shelters in India. It includes the theoretical model of the absorption chiller, building simulation using TRNSYS software, analysis of system components like the solar collector and cooling tower, and economic and environmental analysis. The results show that the solar cooling system can achieve energy savings of 24,820 kWh per year and cost savings of Rs. 1,54,812 with a payback period of 9 months, while mitigating 27.8 tons of CO2 emissions annually compared to a conventional cooling system.
PYReco present at Cologne Expo Cologne 14 16th Feb 2012 = FinalPYReco
The document discusses using waste tires to produce carbon black and other useful products through pyrolysis. It summarizes that pyrolyzing 50% of Europe's annual rubber waste could produce 7.5 million barrels of oil, 7.5 million barrels of gas, 1 million tons of carbon black, and 350,000 tons of steel, while saving 5 million tons of CO2 emissions. The process breaks down whole tires into shreds, which are then pyrolyzed to produce carbon black, oil, gas, and steel as useful end products.
Trident Group operates textile manufacturing campuses across India with a total land area of over 1750 acres. It has yarn, home textiles and paper manufacturing units. The company has proposed multiple energy conservation projects for 2013-2014 focused on reducing power, steam and water consumption across its operations. Key initiatives include improving heat recovery systems, installing variable frequency drives and more efficient pumps and motors. The total investment is estimated at 3.53 crores with projected annual savings of over 7 crores and a payback period of 6 months.
CESC, established in 1899, was the first thermal power generation company in India. It supplies power to the city of Kolkata and surrounding areas, serving over 2.4 million people. One of CESC's generating stations is the Southern Generating Station (SGS), located in Kolkata. SGS has two units with a generating capacity of 67.5 MW each, for a total capacity of 135 MW. It uses pulverized coal to power its boilers and generate electricity, which is then supplied to CESC's distribution network. SGS has achieved several performance milestones and certifications related to efficiency, environmental standards, and safety. It utilizes modern equipment and control systems to optimize power generation.
The document provides an overview of the practical training completed at the Government Engineering College in Jhalawar, India. It summarizes the key components of the 1200 MW Kalisindh Super Thermal Power Project, including: (1) the coal handling plant that processes 56 lakh tons of coal per year, (2) the 600 ton per hour boiler that converts water to high pressure steam, and (3) the 600 MW steam turbine powered generator that produces electricity. It concludes with brief descriptions of other essential parts of the power plant like the ash handling system, cooling towers, and electrical switchyard.
This document provides specifications for the Flex Turbine GT333S gas turbine generator. It has a nominal electrical output of 333 kW with integrated heat recovery. Key features include a synchronous generator, recuperator for increased efficiency, and the ability to operate in grid-parallel or isolated modes. It has a compact design and is suitable for on-site power applications like oil and gas. Electrical efficiency is 32.5% and it can recover up to 1.2 million BTU/hr of heat for cogeneration. Specifications are provided for electrical performance, emissions levels, fuel requirements, dimensions, and operating environment tolerances.
This document discusses waste heat recovery and ORC power systems. It notes that industrial processes reject 30-40% of heat to the atmosphere, and waste heat below 300°C is not typically recovered due to low efficiency. ORC systems can work on low temperature heat resources using organic fluids instead of water. ORC systems have higher efficiency than steam cycles below 350°C and are well-suited for waste heat recovery from sources like cement kilns, furnaces, and diesel generators. A case study estimates a cement plant could generate over 5 MW of power annually from recovering waste heat.
MS thesis: investigating the technical and commercial merits of zinc-air fuel...Denis Vasilescu
The document investigates the technical and commercial merits of zinc-air fuel cells for passenger electric vehicles. It provides motivation for improving electric vehicle battery and charging technologies. The author then outlines a zinc-air fuel cell design featuring centralized zinc oxide reprocessing. Economic analyses estimate the capital costs for electric vehicles and refueling stations under this model. Maintenance costs and the costs of reprocessing zinc oxide at a plant using coal or solar energy are also analyzed. The document considers the technical, economic, and sustainability aspects of a holistic zinc-air fuel cell system for electric vehicles.
Bagaimana memulai konversi lampu konvensional ke LED DialightTeuku Dalin
The document discusses converting conventional lighting to LED lighting at Pertamina Unit Pengolahan VI Balongan in Indonesia. It finds that converting existing mercury vapor, floodlights, high bays, and T8/TL lights to Dialight LED lights would save 178,546 watts of energy, reducing total consumption by 56.78%. The LED lights would have warranties of up to 10 years and not require lamp replacements during the warranty period.
Bagaimana memulai konversi lampu konvensional ke LED Dialight
Chp Job Reference(1009)
1. BROAD CHP Job Reference List
GJ10092918
No. User Location Cooling Heating Energy type Genset type Shipment
capacity/unit capacity date
1 University of Maryland College Park ,MD 74kW/21Rt 90kW 310℃ exhaust 60kW gas turbine (Capstone) 2001.2
2 Sampra Energy Los Angeles, CA 1163kW/331Rt 897kW 310℃ exhaust natural 60kW gas turbine (Capstone) 2001.9
gas
3 Ivanhoe Sante Fe Springs, CA 147kW/42Rt 310℃ exhaust 2×60Kw gas turbine 2002.11
4 Shanghai Science & Shanghai China 174kW/50Rt 135kW 310℃ exhaust/gas 60kW gas turbine 2002.11
Technology University natural gas (Capstone)
5 Gerard Fine Food Inc. City of Industry, CA 147kW/42Rt 310℃ exhaust 2×60kW gas turbine 2002.12
6 Naihai City xingya Guangdong China 2326kW/661Rt 340℃ exhaust 2000kW bunker oil engine 2002.2
Aluminium Co.,Ltd bunker oil
7 Naihai City xingya Guangdong China 2326kW/661Rt 340℃ exhaust 2000kW bunker oil engine 2002.3
Aluminium Co.,Ltd bunker oil
8 General System Design Turkey 70 kW/20Rt 261℃ exhaust 60kW gas turbine (Capstone) 2002.5
9 Gas Technology Institute Chicago, IL 74kW/21Rt 90kW 310℃ exhaust 60kW gas turbine (Capstone) 2002.7
10 Surtigas Company Colombia 174Kw/50Rt 310℃ exhaust 60Kw gas turbine (Capstone) 2003
11 Beijing Gas group Beijing, China 1163kW/331Rt 2687kW 416℃ exhaust ,88/98℃ 498kW gas engine 2003.1
jacket water,natural gas (Caterpillar)
12 Beijing Gas group Beijing, China 2326kW/661Rt 468℃ exhaust,88/98℃ 725kW gas engine 2003.1
jacket water ,natural (Caterpillar)
gas
13 Beijing Bingsong Photon Lanfang Hebei China 233kW/66Rt 179kW 500℃ exhaust 260kW gas engine 2003.1
Co natural gas (Shengli)
14 WesCorp. Los Angles, CA 147kW/42Rt 310℃ exhaust 2×60kW gas turbine 2003.2
(Capstone)
15 Beijing gas group ciqu Beijing, China 233kW/66Rt 1800kW 280℃ exhaust natural 80kW gas turbine (Bowman) 2003.3
station gas
16 Fort Bragg Air Force Base Fort Bragg, NC 3489kW/992Rt 514℃ exhaust 5370kW gas turbine (Solar) 2003.5
17 HEB San Antonio, TX 174kW/50Rt 280℃ exhaust 80kW gas turbine (Bowman) 2003.7
18 Kastamonu-Entegre Turkey 297kW/84Rt 305℃ exhaust 4×60kW gas turbine 2003.7
19 Ledra Marriott Athens, Greece 348kW/99Rt 269kW 480℃ exhaust LPG 934kW gas engine (Perkins or 2003.8
Nedalo)
20 Austin Energy Austin, TX 8916kW/2535Rt 610℃ exhaust 4500kW gas turbine (Solar) 2004.1
21 Concurrent Technologies Johnstown, PA 74kW/21Rt 310℃ exhaust 60kW gas turbine (Capstone) 2004.1
22 Sprint PCS Burlingqame, CA 174kW/50Rt 310℃ exhaust 2*60kW gas turbine (Capstone) 2004.11
2. 23 Chengdu Gas Sichuang, China 2×1163kW/331Rt 2×897kW 500℃ exhaust 2×315kW gas engine 2004.12
natural gas (Cummings)
24 KangYongJia Fibre Co. Zhejiang, China 1163kW/331Rt 475℃ exhaust 315kW gas engine 2004.12
Ltd 85/95℃ jacket water (Cummings)
,natural gas
25 Praekasa Power Thailand 4652kW/1323Rt 396℃ exhaust 2×1100kW gas engine 2004.12
85/95℃ jacket water (GE Jenbacher)
,natural gas
26 EDF/EIFER France 174kW/50Rt 135kW 265℃ exhaust 60kW diesel turbine 2004.5
27 Swan Industry Bangkok, Thailand 349kW/99Rt 330℃ exhaust 60kW gas turbine 2004.8
natural gas (Capstone)
28 Shabnam Petrofils India 988kw/281RT 523℃ exhaust gas engine 2005.07
29 Trading Bridge Corp. Rio,Brazil 989Kw/281RT 540℃ exhaust gas engine 2005.08
82/96℃ jacket
water,natural gas
30 Giesecke&Derrient Munich,Germany 756kw/215RT 450℃ exhaust MDE gas engine 2005.08
Jacket water
31 PTT Wangnoi Thailand 70kw/20RT 2 300℃ exhaust Capstone C60 2005.08
32 PTT Wangnoi Thailand 582kw/165RT 478℃ exhaust Gas engine 2005.08
80/90℃ jacket
water,natural gas
33 Jindal Metals Haryana, India 1454kW/413Rt 477℃ exhaust 1600kW gas engine 2005.1
92/98℃ jacket (Caterpillar)
water,natural gas
34 East Delhi Mall New Delhi, India 2×2326kW/661Rt 500℃ exhaust,88/98℃ 2×315kW gas engine 2005.1
jacket water,natural (Cummings
gas,diesel oil
35 Nishat Textiles Pakistan 1675kw/476RT 450℃ exhaust Gas engine 2005.11
36 Salaar Center Pakistan 2326kw/662RT 1791w 453℃ exhaust Gas engine 2005.12
89/99℃ jacket (Caterpillar)
water,natural gas
37 PT INDAH JAYA Indonesia 5815kW/1653RT 475℃ exhaust GE Jenbacher 2005.12
80/90℃ jacket
water,natural gas
38 Welspun Terry Towels Mombay,India 4431Kw/1260RT 415℃ exhaust Rolls-Royce 2005.5
85/90℃ jacket water
,natural gas
39 Trading Bridge Corp. Rio,Brazil 2035Kw/579RT 565℃ exhaust gas engine 2005.6
40 Qualcomm Incorporated San Diego,CA,USA 3880Kw/1104RT 377℃ exhaust Solar turbine 2005.8
(BE400IX377-82/71- Mercury 50
3. 41 Mall Kelapa Gading Indonesia 2 units, 443℃ exhaust GE Jenbacher 2006.11
2326kw/662RT 80/90℃ jacket JMS 620 GS-N.L
water,natural gas
42 Summarecon Mall Indonesia 2 units, 421℃ exhaust Deutz TCG 2020V20 2006.11
Serpong 1454kw/413RT 80/92℃ jacket
water,natural gas
43 ACS TEXTILE Bengal 4652kW/1320RT 450℃ exhaust Gas engine 2006.3
44 HAYAT TEMIZLIK Turkey 4652kW/1320RT 300℃ exhaust Gas engine 2006.4
45 Nestle Pakistan Ltd Phase I Pakistan 1 unit, BS300, 992Rt 0.8Mpa steam 2006.4
46 DLF India 17 units 1344kW 453℃ exhaust Gas engine 2006.5
1745kW/496RT 89/99℃ jacket (Caterpillar)
water,natural gas
47 PRIMA RAJULI Indonesia 2326kw/662RT 525℃ exhaust Deutz Gas engine 2006.8
83/90℃ jacket water
48 Bina Prima Indonesia 1745kw/496RT 525℃ exhaust Deutz Gas engine 2006.8
82/92℃ jacket water
49 Canberra Airport Australia 1 unit, 331RT 526℃ exhaust Gas engine 2007.1
88/98℃ jacket
water,natural gas
50 Nestle Pakistan Ltd Phase II Pakistan 1 unit, BDH175, 80/90 hot water 2007.1
413Rt
51 Green Sq. in Brisbane Australia 1 unit, 730kW 446℃ exhaust,80/90℃ 2007.12
jacket water,natural gas
as backup
52 Mall of Indonesia Indonesia 1 unit,1244RT 443℃ exhaust GE Jenbacher 2007.12
83/90℃ jacket water
53 Mall of Indonesia Indonesia 1 unit,1645RT 443℃ exhaust GE Jenbacher 2007.12
83/90℃ jacket water
54 PT INDAH JAYA(II phase) Indonesia 1 unit,645RT 550℃ exhaust GE Jenbacher 2007.12
80/90℃ jacket water
55 Canberra Airport(II phase) Australia 1 unit, 1100kW 454℃ exhaust,80/88℃ Gas engine 2007.12
jacket water,natural gas
as backup
56 DLF India 11 units,1323Rt 463℃ exhaust,80/90℃ Deutz gas engine 2007.12
jacket water,natural
gas,diesel oil
57 DLF India 7units, 3307Rt 520℃ exhaust Deutz gas engine 2007.12
58 Manunggal Energy Indonesia 2 units, 1653RT 443℃ exhaust GE Jenbacher 2007.6
83/90℃ jacket
water,natural gas
4. 59 Thai Government City Thailand 2 units, 3306RT 506℃ exhaust Solar gas turbine 2007.7
60 Guangzhou Pearl River Guangzhou China 1745kW/331Rt 475℃ exhaust 2007.8
Beer 85/95℃ jacket water
,natural gas
61 Season City Indonesia 1 unit,1984RT 443℃ exhaust,80/90℃ GE Jenbach J 620 2008.1
jacket water,natural gas
as backup
62 Nesher Cement Irasel 1 unit, 1653RT 452℃ exhaust Gas turbine 2008.1
63 Verim Plastic Turkey 2 units, 338RT 421℃ exhaust Gas engine 2008.1
64 Costanera Center Santiago, Chile 5units, 1653RT / Cummins gas engine 2008.1
65 Sumeet Industries Ltd India 1 unit, BDE100, 520℃ exhaust Deutz gas engine 2008.1
301Rt 463℃ exhaust, 90/80 2x2MW+1x1365kW+1x1MW
1 unit, BDH250, hot water
539Rt
66 Sumeet Industries Ltd India 1 unit, BDE100, 520℃ exhaust Deutz gas engine 2008.1
301Rt 463℃ exhaust, 90/80 2x2MW+1x1365kW+1x1MW
1 unit, BDH250, hot water
539Rt
67 Nesher Cement Israel 1 unit, 1653RT / 452℃ exhaust Gas turbine 2008.1
68 Verim Plastic Turkey 2 units, 338RT / 421℃ exhaust Gas engine 2008.1
69 Costanera Center Santiago, Chile 5units, 1653RT / / Cummins gas engine 2008.1
70 Venlon Enterprises India 1 unit, BHH100, 150/163.1℃ & 76/80℃ 1900kw Dahitsu (Japan) gas 2008.11
Limited 208Rt hot wate engine
71 Venlon Enterprises India 1 unit, BHH100, 150/163.1℃ & 76/80℃ 1900kw Dahitsu (Japan) gas 2008.11
Limited 208Rt hot water engine
72 Cerromatoso Montelibano, 1 unit, 351Rt / Gas engine 2008.2
Colombia
73 Shopping Campo Grande Campo Grande, Brasil 1unit, 579Rt / Gas engine 2008.2
74 Cerromatoso Montelibano, 1 unit, 351Rt / / Gas engine 2008.2
Colombia
75 Shopping Campo Grande Campo Grande, Brasil 1unit, 579Rt / / Gas engine 2008.2
76 DLF Building 10 India 4 unit, 520℃ exhaust Turbomach 5.5MW x4 2008.5
BE1000,3307Rt 463℃ exhaust, 90/80 MWM 4.2MW x5
5 units, BZHE400, hot water
1101Rt
77 DLF Building 10 India 4 unit, 520℃ exhaust Turbomach 5.5MW x4 2008.5
BE1000,3307Rt 463℃ exhaust, 90/80 MWM 4.2MW x5
5 units, BZHE400, hot water
1101Rt
5. 78 DLF Silokhera SEZ India 6 units, BZHE400, 520℃ exhaust Solar gas turbine 2008.6
1101Rt 463℃ exhaust, 90/80 Deutz gas engine
3 units, BE1000, hot water
3158Rt
79 Ibrahim Fibres Phase I Pakistan 1 unit, BS200, 549Rt 0.8Mpa Steam 2008.6
80 DLF Silokhera SEZ India 6 units, BZHE400, 520℃ exhaust Solar gas turbine 2008.6
1101Rt 463℃ exhaust, 90/80 Deutz gas engine
3 units, BE1000, hot water
3158Rt
81 Agro Dutch Industries Ltd India 1 unit, BS1000, 0.8Mpa Steam / 2008.8
3307Rt
82 Agro Dutch Industries Ltd India 1 unit, BS1000, 0.8Mpa Steam / 2008.8
3307Rt
83 Trade center Yakutck Russia 1unit, 500kW / Capstone 65 2009.1
84 Santa-Bremor Belarus 1 unit, 500kW / GEJNS420 2009.1
85 Indore Symbiotec India I unit, BHE75, 149Rt 440℃ exhaust, 88/80 Gas engine 2009.11
Pharmalab hot water
86 Pakistan Air Force, Phase I Pakistan 2 units, BE400, 450℃ exhaust, / 2009.11
1300Rt
87 Indore Symbiotec India I unit, BHE75, 149Rt 440℃ exhaust, 88/80 Gas engine 2009.11
Pharmalab hot water
88 Gokulanand Petrofibres India 1 unit, BHH200, 150/170℃ & 84/94℃ Gas engine Warkesha 1,000 2009.12
638Rt hot water kW
89 Gokulanand Petrofibres India 1 unit, BHH200, 150/170℃ & 84/94℃ Gas engine Warkesha 1,000 2009.12
638Rt hot water kW
90 DLF Building 5 India 4 units, BE1000, 504℃ exhaust Turbomach 5.5MW x4 units 2009.2
1997Rt
91 DLF Hyderabad India 2 units, BE1000, 508℃ exhaust Solar T60 gas turbine 2009.2
2943Rt 463℃ exhaust, 90/80 Deutz 3900 kW gas engine
3 units, BZHE400, hot water
1101Rt
92 DLF Building 5 India 4 units, BE1000, 504℃ exhaust Turbomach 5.5MW x4 units 2009.2
1997Rt
93 DLF Hyderabad India 2 units, BE1000, 508℃ exhaust Solar T60 gas turbine 2009.2
2943Rt 463℃ exhaust, 90/80 Deutz 3900 kW gas engine
3 units, BZHE400, hot water
1101Rt
94 DLF Building 14 India 4 units, BE1000, 520℃ exhaust Gas engine 2009.3
3307Rt 463℃ exhaust, 90/80 CAT, 1,100 kW
5 units, BZHE400, hot water
1323Rt
6. 95 DLF Building 14 India 4 units, BE1000, 520℃ exhaust Solar T60 gas turbine 2009.3
3307Rt 463℃ exhaust, 90/80 Deutz 3900 kW gas engine
5 units, BZHE400, hot water
1323Rt
96 Paharpur 3 P. India 1 unit, BDH50,119RT 90/95 hot water Solar T60 gas turbine 2009.5
Deutz 3900 kW gas engine
97 Paharpur 3 P. India 1 unit, BDH50,119RT 90/95 hot water Gas engine 2009.5
CAT, 1,100 kW
98 Bhilosa Industries Ltd India 1 unit BDH500, 98/88 hot water Gas engibe 2009.6
1336RT
99 Belarus Neft Belarus 1unit,650kW / GE Jenbach 2009.6
100 Bhilosa Industries Ltd India 1 unit BDH500, 98/88 hot water Gas engibe 2009.6
1336RT
101 Spicul Chitila 1 unit, 744Kw / 460℃ Exhaust Gas Engine 2009.6
Romania
102 Gujarat Fluoro Chemical India 1 unit BS250, 681Rt 1.1 Mpa steam 2009.8
Ltd
103 Gujarat Fluoro Chemical India 1 unit BS250, 681Rt 1.1 Mpa steam 2009.8
Ltd
104 Shabnam Petrofils Pvt Ltd India 1 unit, BHE125, 431℃ exhaust, 80/89.6 2010.1
357Rt hot water
1 unit, BDH50, 109Rt 81/89 hot water
105 John Wayne Airport 18601 Airport Way, 2units, 582Rt 110℃ hot water Cummins Gas engine 2010.1
Santa Ana, CA, US
106 Shabnam Petrofils Pvt Ltd India 1 unit, BHE125, 431℃ exhaust, 80/89.6 2010.1
357Rt hot water
1 unit, BDH50, 109Rt 81/89 hot water
107 Megmani Organics India 1 unit, BHE200, 430℃ exhaust, 80/90.5 / 2010.11
Limited 506Rt hot water.
1 unit, BHS75, 250Rt 0.8 Mpa steam, 84/91
hot water
108 Megmani Organics India 1 unit, BHE200, 430℃ exhaust, 80/90.5 / 2010.11
Limited 506Rt hot water.
1 unit, BHS75, 250Rt 0.8 Mpa steam, 84/91
hot water
109 Hanif Spinning mills Ltd Bangladesh 1 unit, BDH150, 80/88 hot water 2010.2
367Rt
1 unit BZ200, 661Rt
110 Jain Irrigation Systems India 1 unit, BHS200, 0.8 Steam, 80/90℃ hot Biogas boiler 2010.3
456Rt water
7. 111 Jain Irrigation Systems India 1 unit, BHS200, 0.8 Steam, 80/90℃ hot Biogas boiler 2010.3
456Rt water
112 Gujarat Nakoda Textile India 1 unit, BH250, 744Rt 150/170℃ hot water / 2010.4
1 unit, BH300, 923Rt 0Mpa (100℃) steam
1 unit, BDS300,
893Rt
113 Gujarat Nakoda Textile India 1 unit, BH250, 744Rt 150/170℃ hot water / 2010.4
1 unit, BH300, 923Rt 0Mpa (100℃) steam
1 unit, BDS300,
893Rt
114 Villaggio Turistico Matera 1 unit, 407Kw 268Kw 480℃ Exhaust Gas Engine 2010.4
Italy
115 Hotel Leelaventure Limited India 1 unit, BZE250, 508℃ exhaust, / 2010.5
724Rt Oil & N.G.for backup
burner
116 Hotel Leelaventure Limited India 1 unit, BZE250, 508℃ exhaust, / 2010.5
724Rt Oil & N.G.for backup
burner
117 Ibrahim Fibres Phase II Pakistan 2 units, BS200, 0.8Mpa Steam 2010.6
549Rt
118 Kusumgar Corporates Pvt. India 1 unit, BHE20, 66RT 440℃ exhaust, 82/90 / 2010.7
Ltd hot water.
119 Kusumgar Corporates Pvt. India 1 unit, BHE20, 66RT 440℃ exhaust, 82/90 / 2010.7
Ltd hot water.
120 Pointec Pens Pvt Ltd India 1 unit, BDH75, 76RT 75.8/80 hot water. 2010.8
121 Pakistan Air Force, Phase II Pakistan 1 unit, BE400, 450℃ exhaust, / 2010.8
1300Rt
122 Pahartali Textile & Hosiery Bangladesh 2 units, BE150, 520℃ exhaust 2010.8
Mills 496Rt
123 VSK Moscow Russia 1unit,300kW / Capstone 65 2010.8
124 Pointec Pens Pvt Ltd India 1 unit, BDH75, 76RT 75.8/80 hot water. 2010.8
125 Zhongguancun Software Beijing, China 3489kW/ 504℃ exhaust 1200kW gas turbine 2004.10
Park natural gas (Solar)
126 Belarus Neft-2 Belarus 2units, 8600kW / GE Jenbach 2009.1
127 Vanylon Barranquilla, 2units, 413Rt 500℃ exhaust Cummins Gas engine 2010.11
128 TAV Enfidha, Tunisia 1 unit, 2173 KW 994kw 464℃ Exhaust, Gas Engine, Caterpillar 2010.11